CN111682417A - Energy-saving environment-friendly new energy electric appliance cabinet structure and energy-saving method thereof - Google Patents

Abstract

The invention discloses an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof, and belongs to the technical field of new energy electric appliance cabinets.

Description

Energy-saving environment-friendly new energy electric appliance cabinet structure and energy-saving method thereof

Technical Field

The invention relates to a new energy electric appliance cabinet, in particular to an energy-saving environment-friendly new energy electric appliance cabinet structure, and also relates to an energy-saving method of the new energy electric appliance cabinet, in particular to an energy-saving environment-friendly new energy electric appliance cabinet structure energy-saving method, and belongs to the technical field of new energy electric appliance cabinets.

Background

The control cabinet is formed by assembling switch equipment, measuring instruments, protective electric appliances and auxiliary equipment in a closed or semi-closed metal cabinet or on a screen according to the electric wiring requirement, the arrangement of the control cabinet meets the requirement of normal operation of an electric power system, the control cabinet is convenient to overhaul, the safety of people and surrounding equipment is not endangered, a circuit can be switched on or switched off by a manual or automatic switch in normal operation, and the circuit can be switched off or alarmed by the protective electric appliances in fault or abnormal operation. The measuring instrument can display various parameters in operation, and can also adjust some electrical parameters to prompt or send signals for deviating from normal working state, and the measuring instrument is commonly used in various power distribution, distribution and transformation substations.

The power distribution control cabinet in the prior art is of a uniform single function for control or power distribution, does not have any power generation function, is of a square structure, is usually erected at a high place or on the ground, but can cause electric leakage when water is saved to overflow the power distribution cabinet in rainy seasons, and can provide a very energy-saving effect for surrounding circuit equipment such as street lamps if the power distribution cabinet has the function of saving energy and generating power by using new energy for products which are visible everywhere under the conditions of energy shortage and energy production diversification, and also save the strength of power grid power load of the city.

Disclosure of Invention

The invention mainly aims to provide an energy-saving and environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof, wherein an electric appliance is arranged on the inner side of a shell, an outgoing wire of the electric appliance is led out through an outgoing wire through hole, strong thrust is generated on a wind resistance blade under the action of wind power, a first rotating clamping component and a second rotating clamping component are respectively driven to rotate on a base component and a top cover component, mechanical energy generated by rotation drives a generator to generate electricity through a rotating rod, solar energy is obtained through a solar panel laid on the wind resistance blade and converted into electric energy to supply power to a storage battery arranged in the shell, the generated electric energy is connected to mains supply through a voltage stabilizer and a transformer, so that electricity generation is realized by a new energy obtaining mode, energy conservation and environment protection are realized, power supply can also be carried out on other electric appliances, and when the water level is detected to rise, an electric hydraulic cylinder is started to push a first hinged, the casing rises and drives the top cap and rise, and then drives the outside of outer fixed pipe including the slip tube and rise, has avoided the too big ponding too much problem that leads to of rainwater.

The purpose of the invention can be achieved by adopting the following technical scheme:

an energy-saving environment-friendly new energy electric appliance cabinet structure comprises a shell, wherein the shell is of a cylindrical structure, a door plate is hinged to one side of the shell, a top cover assembly capable of rotating at the top of the shell is installed at the top of the shell through a sliding limiting assembly, a second rotating clamping assembly capable of moving around the top cover assembly is arranged on the top cover assembly, a base assembly is installed at the bottom of the shell, a first rotating clamping assembly capable of moving around the base assembly is arranged on the base assembly, a wind blocking blade is clamped between the first rotating clamping assembly and the second rotating clamping assembly and paved with a solar panel, a lifting supporting assembly capable of pushing the base assembly to move up and down is hinged to the bottom of the base assembly, a liquid level detection sensor is installed at the bottom of the base assembly, a telescopic adjusting assembly is installed in the middle of the top cover assembly, and a supporting frame assembly, the bottom of support frame subassembly is inserted and is fixed in the soil, the bull stick is installed at the top of support frame subassembly, just the dryer is installed at the top of bull stick, the internally mounted of dryer has wind power generation subassembly.

Preferably, the sliding limiting assembly comprises sliding balls and a third annular limiting sliding groove, the third annular limiting sliding groove is formed in the top of the shell and is close to the top ring portion of the shell, and multiple groups of sliding balls capable of rolling on the inner side of the third annular limiting sliding groove are arranged on the inner side of the third annular limiting sliding groove.

Preferably, the top cap subassembly includes top cap, first annular spacing spout, second slide bar and bottom draw-in groove ring, and the bottom draw-in groove ring is seted up in the top cap bottom and is close to top cap outer ring portion, and first annular spacing spout has all been seted up at bottom and interior top in the top cap, and the rotatory centre gripping subassembly of second is seted up in the inboard of top cap and can be encircleed the top cap and rotate.

Preferably, the rotatory centre gripping subassembly of second includes the second slide bar, the second connecting rod, the spacing fixed strip of top screens seat and arc, the inboard and the inboard slip of the first annular spacing spout of establishing at the first annular spacing spout of second slide bar card, the outside middle part at the second slide bar is installed to the second connecting rod, the top screens seat is installed to the other end of second connecting rod, the top seal and the lateral part and the bottom of top screens seat all seted up the recess, the inboard of top screens seat is equipped with the spacing fixed strip of arc.

Preferably, the base subassembly includes the base, the opening of being qualified for the next round of competitions, the spacing spout of second annular and articulated seat, the opening of being qualified for the next round of competitions is seted up at the middle part of base and is link up the base, the spacing spout of second annular has all been seted up at bottom and interior top in the base, the bottom of base is installed articulated seat along base bottom ring portion equidistant, articulated seat articulates there is the lift supporting component, first rotatory centre gripping subassembly is seted up and to be encircleed the base motion on the base.

Preferably, the lift supporting component includes electric hydraulic cylinder, L type connecting block, the supporting shoe, second hinge rod and first hinge rod, the bottom of articulated seat articulates there is first hinge rod, the one end that the base was kept away from to first hinge rod articulates there is the second hinge rod, second hinge rod top middle part articulates there is electric hydraulic cylinder, electric hydraulic cylinder's output articulates there is L type connecting block, and the other end of L type connecting block is installed at first hinge rod bottom middle part, the one end that the base was kept away from to the second hinge rod articulates there is the supporting shoe.

Preferably, first rotatory centre gripping subassembly includes first slide bar, head rod, bottom screens seat and the spacing fixed strip of arc, and the first slide bar card is established in the inboard of the spacing spout of second annular and can be followed the inboard slip of the spacing spout of second annular, and the mid-mounting of first slide bar one side has the head rod, and the one end that the base was kept away from to the head rod is installed bottom screens seat, and the inboard of bottom screens seat is equipped with the spacing fixed strip of arc.

Preferably, flexible adjusting part includes the external fixation pipe, the inside slip pipe, a bearing, the spacing draw runner of arc and the spacing spout of arc, and the top mid-mounting of top cap has the external fixation pipe, and the inboard cover of the external fixation pipe is equipped with the inside slip pipe, and the support frame subassembly is installed at the top of the inside slip pipe, the inboard of the external fixation pipe of the spacing draw runner integrated into one piece of arc, the spacing spout of arc is seted up including the outside of slip pipe and is mutually supported with the spacing draw runner of arc, the outside top of the slip pipe including the bearing installation.

Preferably, the support frame subassembly includes L type dead lever and top fixed plate, and top fixed plate is installed at the top of interior slip tube, and L type dead lever is installed to the outside equidistant of top fixed plate, and the other end of L type dead lever inserts to soil in, and the outside of hindering the fan blade is close to limit portion and installs arc screens strip, and arc screens strip is seted up in the inside groove that the spacing fixed strip of arc constitutes with bottom screens seat and top screens seat respectively.

An energy-saving method for an energy-saving environment-friendly new energy electric appliance cabinet structure comprises the following steps:

step 1: an outlet wire of the electric appliance is arranged on the inner side of the shell and is led out through the outlet through hole;

step 2: the wind power generates strong thrust to the choke blades and drives the first rotary clamping component and the second rotary clamping component to rotate on the base component and the top cover component respectively;

and step 3: the mechanical energy generated by rotation drives the generator to generate electricity through the rotating rod;

and 4, step 4: solar energy is obtained through a solar panel laid on the wind resistance blades and is converted into electric energy to supply power to a storage battery arranged in the shell;

and 5: the generated electric energy is connected to the commercial power through a voltage stabilizer and a transformer;

step 6: when the water level is detected to rise, the electric hydraulic cylinder is started to push the first hinged rod and the second hinged rod to be unfolded in an angle so that the shell of the first hinged rod and the second hinged rod rises;

and 7: the shell rises to drive the top cover to rise, and then drives the outer fixing pipe to rise outside the inner sliding pipe.

And 8: the air flowing into the fan barrel is gathered through the air duct, so that the fan blades are driven to rotate, the generator is driven through the fan blades, and the function of further utilizing wind power to generate electricity is achieved.

The invention has the beneficial technical effects that:

the invention provides an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof, wherein an electric appliance is arranged on the inner side of a shell, an outgoing wire of the electric appliance is led out through an outgoing wire port, strong thrust is generated on a wind resistance blade under the action of wind power, a first rotary clamping component and a second rotary clamping component are respectively driven to rotate on a base component and a top cover component, mechanical energy generated by rotation drives a generator to generate electricity through a rotating rod, solar energy is acquired through a solar panel laid on the wind resistance blade and converted into electric energy to supply power to a storage battery arranged in the shell, the generated electric energy is connected to commercial power through a voltage stabilizer and a transformer, so that electricity generation is realized by acquiring new energy, energy conservation and environment protection are realized, power can be supplied to other electric appliances, and an electric hydraulic cylinder is started to push a first hinge rod and a second hinge rod to expand at an angle to enable the shell, the casing rises and drives the top cap and rise, and then drives the outside of outer fixed pipe including the slip tube and rise, has avoided the too big ponding too much problem that leads to of rainwater.

Drawings

Fig. 1 is an exploded view of an overall three-dimensional structure of an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof according to a preferred embodiment of the invention;

FIG. 2 is a schematic perspective view of a base and a lifting assembly thereof according to a preferred embodiment of an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof;

FIG. 3 is a schematic top cover perspective view of an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof according to a preferred embodiment of the present invention;

fig. 4 is a schematic perspective view of a circular power distribution cabinet according to a preferred embodiment of the energy-saving environment-friendly new energy electric appliance cabinet structure and the energy-saving method thereof of the present invention;

FIG. 5 is a schematic perspective view of an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof according to a preferred embodiment of the present invention;

FIG. 6 is a schematic perspective view of a fixing frame according to a preferred embodiment of the energy-saving environment-friendly new energy electric appliance cabinet structure and the energy-saving method thereof;

FIG. 7 is a schematic perspective view of a wind and solar power generation blade according to a preferred embodiment of an energy-saving and environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof;

fig. 8 is an enlarged view of a structure at a position a of a preferred embodiment of an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof according to the present invention;

fig. 9 is an enlarged view of a structure at b of a preferred embodiment of an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof according to the present invention;

FIG. 10 is an enlarged view of the structure at the position c of a preferred embodiment of an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof according to the present invention;

fig. 11 is a schematic perspective view of a clamping seat according to a preferred embodiment of an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof;

fig. 12 is an enlarged view of a structure at d of a preferred embodiment of an energy-saving environment-friendly new energy electric appliance cabinet structure and an energy-saving method thereof according to the present invention.

In the figure: 1-top fixing plate, 2-L type fixing rod, 3-outer fixing tube, 4-inner sliding tube, 5-top cover, 6-shell, 7-door plate, 8-wind blocking blade, 9-arc clamping strip, 10-base, 11-first connecting rod, 12-first hinging rod, 13-second hinging rod, 14-supporting block, 15-electric hydraulic cylinder, 16-L type connecting block, 17-bottom clamping seat, 18-first annular limiting sliding groove, 19-top clamping seat, 20-second connecting rod, 21-second sliding rod, 22-bearing, 23-arc limiting sliding strip, 24-arc limiting sliding groove, 25-arc limiting fixing strip, 26-first sliding rod, 27-hinging seat, 28-second annular limiting sliding groove, 30-outlet port, 31-sliding ball, 32-third annular limiting chute, 33-lifting support component, 34-base component, 35-top cover component, 36-first rotary clamping component, 37-second rotary clamping component, 38-support component, 39-telescopic adjusting component, 40-air duct, 41-rotating rod, 42-annular fixing frame, 43-fan blade, 44-connecting seat and 45-limiting cap.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-12, the energy-saving environment-friendly new energy electric appliance cabinet structure provided in this embodiment includes a housing 6, the housing 6 is a cylindrical structure, and one side of the housing 6 is hinged with a door plate 7, a top cover assembly 35 which can rotate on the top of the housing 6 is installed on the top of the housing 6 through a sliding limiting assembly, a second rotating clamping assembly 37 which can move around the top cover assembly 35 is installed on the top cover assembly 35, a base assembly 34 is installed on the bottom of the housing 6, a first rotating clamping assembly 36 which can move around the base assembly 34 is installed on the base assembly 34, a wind blocking blade 8 is clamped between the first rotating clamping assembly 36 and the second rotating clamping assembly 37, a solar panel is laid on the wind blocking blade 8, a lifting supporting assembly 33 which can push the base assembly 34 to move up and down is hinged on the bottom of the base assembly 34, and a liquid level detecting sensor is installed on the bottom, top cap subassembly 35's top mid-mounting has flexible adjusting part 39, and support frame subassembly 38 is installed at the top of flexible adjusting part 39, and the bottom of support frame subassembly 38 is inserted and is fixed in soil, and bull stick 41 is installed at the top of support frame subassembly 38, and dryer 40 is installed at the top of bull stick 41, and the internally mounted of dryer 40 has wind power generation subassembly.

The electric appliance is arranged on the inner side of the shell 6, the outgoing wire of the electric appliance is led out through the outgoing wire port 30, strong thrust is generated on the choke blade 8 under the action of wind power, the first rotary clamping component 36 and the second rotary clamping component 37 are respectively driven to rotate on the base component 34 and the top cover component 35, mechanical energy generated by rotation drives the generator to generate electricity through the rotating rod, solar energy is obtained through the solar panel paved on the choke blade 8 and converted into electric energy to supply power to the storage battery arranged in the shell 6, the generated electric energy is connected to commercial power through the voltage stabilizer and the transformer, therefore, the electricity generation through the mode of obtaining new energy is realized, the energy is saved, the environment is protected, power can be supplied to other electric appliances, the electric hydraulic cylinder 15 is started to push the first hinged rod 12 and the second hinged rod 13 to expand at an angle to enable the shell 6 to rise when the water level is, the casing 6 rises and drives the top cap 5 to rise, and then drives the outside of outer fixed pipe 3 including slide tube 4 and rise, has avoided the too big ponding too much problem that leads to of rainwater.

In this embodiment, the spacing subassembly of slip includes the spacing spout 32 of slip ball 31 and third annular, the spacing spout 32 of third annular is seted up at the top of casing 6 and is close to casing 6 apical ring portion department, the inboard of the spacing spout 32 of third annular is equipped with the multiunit and can be at the inboard rolling slip ball 31 of the spacing spout 32 of third annular, wind power generation subassembly includes annular mount 42, connecting seat 44, fan leaf 43 and spacing cap 45, the inner wall at dryer 40 is installed to annular mount 42, one side mid-mounting of annular mount 42 has connecting seat 44, fan leaf 43 is installed to the output of connecting seat 44, spacing cap 45 with fan leaf 43 is seted up to the output of connecting seat 44.

In this embodiment, the top cover assembly 35 includes top cover 5, first annular limiting sliding groove 18, second sliding rod 21 and bottom draw-in groove ring, and the bottom draw-in groove ring is seted up in top cover 5 bottom and is close to top cover 5 outer ring portion, and first annular limiting sliding groove 18 has all been seted up to bottom and interior top in top cover 5, and the rotatory centre gripping subassembly 37 of second is seted up in the inboard of top cover 5 and can be encircleed top cover 5 and rotate.

In this embodiment, the second rotary clamping assembly 37 includes a second sliding rod 21, a second connecting rod 20, a top clamping seat 19 and an arc-shaped limiting fixing strip 25, the second sliding rod 21 is clamped inside the first annular limiting sliding groove 18 and can slide inside the first annular limiting sliding groove 18, the second connecting rod 20 is installed in the middle of the outer side of the second sliding rod 21, the top clamping seat 19 is installed at the other end of the second connecting rod 20, the top of the top clamping seat 19 is sealed, the side of the top clamping seat 19 is provided with a groove, and the inner side of the top clamping seat 19 is provided with the arc-shaped limiting fixing strip 25.

In this embodiment, base subassembly 34 includes base 10, the opening of being qualified for the next round of competitions 30, the spacing spout 28 of second annular and articulated seat 27, and the opening of being qualified for the next round of competitions 30 is seted up at the middle part of base 10 and is link up base 10, and the spacing spout 28 of second annular has all been seted up with interior top in base 10, and the equidistant articulated seat 27 of installing of base 10 bottom edge base 10 bottom ring portion is articulated to articulated seat 27, and first rotatory centre gripping subassembly 36 is seted up and is can be encircleed the base 10 motion on base 10.

In this embodiment, the lifting support assembly 33 includes electric hydraulic cylinder 15, L type connecting block 16, supporting shoe 14, second articulated rod 13 and first articulated rod 12, the bottom of articulated seat 27 articulates there is first articulated rod 12, the one end that base 10 was kept away from to first articulated rod 12 articulates there is second articulated rod 13, second articulated rod 13 pushes up the middle part and articulates there is electric hydraulic cylinder 15, electric hydraulic cylinder 15's output articulates there is L type connecting block 16, and the other end of L type connecting block 16 is installed at the middle part at the bottom of first articulated rod 12, the one end that base 10 was kept away from to second articulated rod 13 articulates there is supporting shoe 14.

In this embodiment, the first rotating clamping assembly 36 includes a first sliding rod 26, a first connecting rod 11, a bottom clamping seat 17 and an arc-shaped limiting fixing strip 25, the first sliding rod 26 is clamped inside the second annular limiting sliding groove 28 and can slide along the inside of the second annular limiting sliding groove 28, the first connecting rod 11 is installed in the middle of one side of the first sliding rod 26, the bottom clamping seat 17 is installed at one end of the first connecting rod 11 far away from the base 10, and the arc-shaped limiting fixing strip 25 is installed inside the bottom clamping seat 17.

In this embodiment, flexible adjusting part 39 includes outer fixed tube 3, interior slip tube 4, bearing 22, the spacing draw runner of arc 23 and the spacing spout of arc 24, the top mid-mounting of top cap 5 has outer fixed tube 3, and the inboard cover of outer fixed tube 3 is equipped with interior slip tube 4, support frame subassembly 38 is installed at the top of interior slip tube 4, the inboard of the spacing draw runner of arc 23 integrated into one piece at outer fixed tube 3, the spacing spout of arc 24 is seted up including the outside of slip tube 4 and is mutually supported with the spacing draw runner of arc 23, the outside top of slip tube 4 including the bearing 22 installation.

In this embodiment, support frame subassembly 38 includes L type dead lever 2 and top fixed plate 1, and top fixed plate 1 is installed at the top of interior slip pipe 4, and L type dead lever 2 is installed to the outside of top fixed plate 1 equidistant, and the other end of L type dead lever 2 inserts to soil in, and the outside of hindering fan blade 8 is close to the limit portion and installs arc screens strip 9, and arc screens strip 9 sets up in the inside groove that the spacing fixed strip 25 of arc constitutes with bottom screens seat 17 and top screens seat 19 respectively.

An energy-saving method for an energy-saving environment-friendly new energy electric appliance cabinet structure comprises the following steps:

step 1: the outgoing lead of the electric appliance is led out through the outgoing port 30 by installing the electric appliance on the inner side of the shell 6;

step 2: strong thrust is generated on the choke blades 8 under the action of wind power, and the first rotary clamping component 36 and the second rotary clamping component 37 are respectively driven to rotate on the base component 34 and the top cover component 35;

and step 3: the mechanical energy generated by rotation drives the generator to generate electricity through the rotating rod;

and 4, step 4: solar energy is obtained through a solar panel laid on the wind resistance blades 8 and is converted into electric energy to supply power to a storage battery arranged in the shell 6;

and 5: the generated electric energy is connected to the commercial power through a voltage stabilizer and a transformer;

step 6: when the water level is detected to rise, the electric hydraulic cylinder 15 is started to push the first articulated rod 12 and the second articulated rod 13 to be unfolded angularly so as to enable the shell 6 of the first articulated rod to rise;

and 7: the shell 6 rises to drive the top cover 5 to rise, and further drive the outer fixing pipe 3 to rise outside the inner sliding pipe 4;

and 8: the inflowing air is gathered through the air duct 40, the fan blades 43 are driven to rotate, the generator is driven through the fan blades 43, and the function of further utilizing wind power to generate electricity is achieved.

The above are only further embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its concept within the scope of the present invention.

Claims (10)

1. The utility model provides an energy-concerving and environment-protective new forms of energy electric appliance cabinet structure which characterized in that: the solar energy water heater comprises a shell (6), the shell (6) is of a cylindrical structure, a door plate (7) is hinged to one side of the shell (6), a top cover component (35) capable of rotating at the top of the shell (6) is installed at the top of the shell (6) through a sliding limiting component, a second rotating clamping component (37) capable of moving around the top cover component (35) is arranged on the top cover component (35), a base component (34) is installed at the bottom of the shell (6), a first rotating clamping component (36) capable of moving around the base component (34) is arranged on the base component (34), a wind blocking blade (8) is clamped between the first rotating clamping component (36) and the second rotating clamping component (37), a solar panel is paved on the wind blocking blade (8), and a lifting supporting component (33) capable of pushing the base component (34) to move up and down is hinged to the bottom of the base component (34) in a surrounding mode, just the liquid level detection sensor is installed to the bottom of base subassembly (34), the top mid-mounting of top cap subassembly (35) has flexible adjusting part (39), just strutting frame subassembly (38) are installed at the top of flexible adjusting part (39), the bottom of strutting frame subassembly (38) is inserted and is fixed to soil, bull stick (41) are installed at the top of strutting frame subassembly (38), just dryer (40) are installed at the top of bull stick (41), the internally mounted of dryer (40) has wind power generation subassembly.

2. The energy-saving environment-friendly new energy electric appliance cabinet structure as claimed in claim 1, characterized in that: the sliding limiting assembly comprises sliding balls (31) and a third annular limiting chute (32), the third annular limiting chute (32) is arranged at the top of the shell (6) and is close to the top ring part of the shell (6), and a plurality of groups of sliding balls (31) capable of rolling on the inner side of the third annular limiting chute (32) are arranged on the inner side of the third annular limiting chute (32);

the wind power generation assembly comprises an annular fixing frame (42), a connecting seat (44), fan blades (43) and a limiting cap (45), wherein the annular fixing frame (42) is installed on the inner wall of the air duct (40), the connecting seat (44) is installed in the middle of one side of the annular fixing frame (42), the fan blades (43) are installed at the output end of the connecting seat (44), and the limiting cap (45) limiting the fan blades (43) is arranged at the output end of the connecting seat (44).

3. The energy-saving environment-friendly new energy electric appliance cabinet structure as claimed in claim 2, characterized in that: top cap subassembly (35) include top cap (5), first annular spacing spout (18), second slide bar (21) and bottom draw-in groove ring, the bottom draw-in groove ring is seted up top cap (5) bottom is close to top cap (5) outer ring portion, first annular spacing spout (18) have all been seted up at bottom and interior top in top cap (5), the rotatory centre gripping subassembly of second (37) is seted up the inboard of top cap (5) can be encircleed top cap (5) are rotated.

4. The energy-saving environment-friendly new energy electric appliance cabinet structure as claimed in claim 3, characterized in that: rotatory centre gripping subassembly of second (37) includes second slide bar (21), second connecting rod (20), top screens seat (19) and the spacing fixed strip of arc (25), second slide bar (21) card is established the inboard of first annular spacing spout (18) and can the inboard slip of first annular spacing spout (18), second connecting rod (20) are installed the outside middle part of second slide bar (21), top screens seat (19) are installed to the other end of second connecting rod (20), the top seal and the lateral part and the bottom of top screens seat (19) all seted up the recess, the inboard of top screens seat (19) is equipped with the spacing fixed strip of arc (25).

5. The energy-saving environment-friendly new energy electric appliance cabinet structure as claimed in claim 3, characterized in that: base subassembly (34) include base (10), be qualified for the next round of competitions opening (30), the spacing spout of second annular (28) and articulated seat (27), be qualified for the next round of competitions opening (30) set up the middle part of base (10) and link up base (10), the spacing spout of second annular (28) have all been seted up at base (10) bottom and interior top, the bottom of base (10) is followed base (10) ring portion equidistant install articulated seat (27), articulated seat (27) articulate and have lift supporting component (33), first rotatory centre gripping subassembly (36) are set up can encircle on base (10) motion.

6. The energy-saving environment-friendly new energy electric appliance cabinet structure as claimed in claim 5, characterized in that: lifting support subassembly (33) include electric hydraulic cylinder (15), L type connecting block (16), supporting shoe (14), second articulated rod (13) and first articulated rod (12), the bottom of articulated seat (27) articulates there is first articulated rod (12), keep away from first articulated rod (12) the one end of base (10) articulates there is second articulated rod (13), second articulated rod (13) top middle part articulates there is electric hydraulic cylinder (15), the output of electric hydraulic cylinder (15) articulates there is L type connecting block (16), just the other end of L type connecting block (16) is installed middle part at the bottom of first articulated rod (12), keep away from second articulated rod (13) the one end of base (10) articulates there is supporting shoe (14).

7. The energy-saving environment-friendly new energy electric appliance cabinet structure as claimed in claim 5, characterized in that: first rotatory centre gripping subassembly (36) include first slide bar (26), head rod (11), bottom screens seat (17) and the spacing fixed strip of arc (25), first slide bar (26) card is established the inboard of the spacing spout of second annular (28) and can be followed the inboard slip of the spacing spout of second annular (28), the mid-mounting of first slide bar (26) one side has head rod (11), head rod (11) are kept away from bottom screens seat (17) are installed to the one end of base (10), the inboard of bottom screens seat (17) is equipped with the spacing fixed strip of arc (25).

8. The energy-saving environment-friendly new energy electric appliance cabinet structure as claimed in claim 7, characterized in that: flexible adjusting part (39) are including outer fixed tube (3), interior slip tube (4), bearing (22), the spacing draw runner of arc (23) and the spacing spout of arc (24), the top mid-mounting of top cap (5) has outer fixed tube (3), just the inboard cover of outer fixed tube (3) is equipped with interior slip tube (4), support frame subassembly (38) is installed at the top of interior slip tube (4), the spacing draw runner of arc (23) integrated into one piece is in the inboard of outer fixed tube (3), the spacing spout of arc (24) is seted up the outside of interior slip tube (4) and with the spacing draw runner of arc (23) mutually supports, bearing (22) are installed the outside top of interior slip tube (4).

9. The energy-saving environment-friendly new energy electric appliance cabinet structure as claimed in claim 8, characterized in that: the utility model discloses a support frame, including support frame subassembly (38) including L type dead lever (2) and top fixed plate (1), top fixed plate (1) is installed at the top of interior slip tube (4), L type dead lever (2) are installed to the equidistant L in the outside of top fixed plate (1), just the other end of L type dead lever (2) inserts to soil, the outside that hinders fan blade (8) is close to limit portion and installs arc screens strip (9), just arc screens strip (9) are seted up spacing fixed strip of arc (25) respectively with bottom screens seat (17) with in the inside groove that top screens seat (19) constitute.

10. The energy-saving method for the energy-saving environment-friendly new energy electric appliance cabinet structure according to any one of claims 1 to 9, characterized by comprising the following steps: the method comprises the following steps:

step 1: an outgoing wire of the electric appliance is arranged on the inner side of the shell (6) and is led out through the outgoing wire port (30);

step 2: strong thrust is generated on the wind resistance blade (8) under the action of wind power, and the first rotary clamping component (36) and the second rotary clamping component (37) are respectively driven to rotate on the base component (34) and the top cover component (35);

and step 3: the mechanical energy generated by rotation drives the generator to generate electricity through the rotating rod;

and 4, step 4: solar energy is obtained through a solar panel laid on the wind resistance blade (8) and is converted into electric energy to supply power to a storage battery arranged in the shell (6);

and 5: the generated electric energy is connected to the commercial power through a voltage stabilizer and a transformer;

step 6: when the water level is detected to rise, an electric hydraulic cylinder (15) is started to push a first hinged rod (12) and a second hinged rod (13) to be unfolded angularly so that a shell (6) of the first hinged rod rises;

and 7: the shell (6) rises to drive the top cover (5) to rise, and further drive the outer fixed pipe (3) to rise outside the inner sliding pipe (4);

and 8: the air flowing in is gathered through the air duct (40), so that the fan blades (43) are driven to rotate, the generator is driven through the fan blades (43), and the function of further utilizing wind power to generate electricity is achieved.

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