CN117662379B - Micro-grid-based small wind driven generator - Google Patents

Abstract

The invention relates to the technical field of wind driven generators. More particularly, the present invention relates to a micro-grid based small wind generator. Technical problems: when the desiccant is arranged at the radiating hole to absorb water vapor in the air, the radiating effect can be influenced. The technical scheme is as follows: a moisture-proof belt is arranged in the shell, one end of the moisture-proof belt is wound on the forefront sleeve, the other end of the moisture-proof belt is fixed on the rearmost sleeve, and the moisture-proof belt has a ventilation effect; the shell is connected with a heat dissipation component; the heat dissipation component is used for extracting hot air in the shell; when the moisture-proof belt winding device is used, the moisture-proof belt which is saturated with water is wound up through the sleeve at the rear, and the moisture-proof belt which is not absorbing water vapor is unwound through the sleeve at the front, so that the moisture-proof belt continuously absorbs the air flowing through the shell, and the problem that the heat dissipation operation is affected due to the fact that the drying agent absorbs the water vapor is avoided.

Description

Micro-grid-based small wind driven generator

Technical Field

The invention relates to the technical field of wind driven generators. More particularly, the present invention relates to a micro-grid based small wind generator.

Background

The prior Chinese patent: a moistureproof device (CN 212508657U) for a wind driven generator, which ensures that a drying agent is uniformly distributed in a drying box, is beneficial to improving the drying effect, can quickly replace drying and is convenient to operate;

when such aerogenerator was used in the sea area, because steam content in the sea area air is higher relatively, steam flows in from aerogenerator's louvre easily, leads to the fact the influence to its inside electrical component operation, and the drier in the above-mentioned equipment can't absorb steam the very first time, if set up the drier in louvre department, then after the drier absorbs steam, the caking phenomenon can appear in its inside powder, influences the air current flow to cause certain influence to the radiating operation, appear overheated phenomenon easily.

Disclosure of Invention

The invention provides a micro-grid-based small wind driven generator, which aims to overcome the defect that when a desiccant is arranged at a radiating hole to absorb water vapor in air, the radiating effect is affected.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

a micro-grid-based small wind driven generator comprises a supporting rod, a shell, a generator body and an impeller; the supporting rod is fixedly connected with a shell; a generator body is fixedly connected in the shell; an impeller is fixedly connected on the rotating shaft of the generator body; the device also comprises a cover plate, a first connecting block, a round rod, a sleeve, a dampproof belt, a heat dissipation assembly, a rolling assembly and a driving assembly; a cover plate is fixedly connected on the shell; at least two first connecting blocks are fixedly connected on the shell; a round rod is rotatably connected to each connecting block I; each round rod is connected with a sleeve in a sliding way; a moisture-proof belt is arranged in the shell, one end of the moisture-proof belt is wound on the forefront sleeve, the other end of the moisture-proof belt is fixed on the rearmost sleeve, and the moisture-proof belt has a ventilation effect; the shell is connected with a heat dissipation component; the heat dissipation component is used for extracting hot air in the shell; the shell is connected with a rolling assembly; the rolling assembly is used for enabling the moisture-proof belt to be tightly attached to the inner wall of the shell; the shell is connected with a driving component; the driving component is used for driving the round rod to rotate.

Further, the heat dissipation assembly comprises a connecting plate, a first housing, a fan, a filter screen and a grid plate; a connecting plate is fixedly connected to the left side of the shell and is contacted with the cover plate; the connecting plate is provided with a first cover shell in a penetrating way; the first housing is arranged in two layers, and the inner layer of the first housing is connected with a fan through bolts; a filter screen is fixedly connected on the first housing, and the filter screen is positioned at the left side of the fan; the first cover shell is fixedly connected with a grid plate, and the grid plate is positioned at the left side of the filter screen.

Further, the rolling assembly comprises a first supporting frame, an elastic telescopic rod, a second connecting block and a roller; at least two first support frames are fixedly connected on the shell; at least two elastic telescopic rods are fixedly connected to each first support frame; the telescopic end of each elastic telescopic rod is fixedly connected with a second connecting block; one side of each supporting frame is provided with a roller, the roller is connected with the corresponding connecting block II in a rotating way, and the roller is contacted with the moistureproof belt.

Further, the device also comprises a fixing component; the shell is connected with a fixing component; the fixed component comprises a second support frame, an electric push rod and a pressing plate; a second supporting frame is fixedly connected on the shell; at least two electric push rods are fixedly connected on the second support frame; the telescopic end of each electric push rod is fixedly connected with a pressing plate, and the pressing plates are contacted with the moistureproof belt.

Further, the utility model also comprises a parting bead; the moistureproof belt is divided into a plurality of small sections, and a parting bead is arranged between every two adjacent sections of moistureproof belts.

Further, the water absorbing piece is also included; the upper end and the lower end of each parting bead are fixedly connected with a water absorbing piece which is fixedly connected with a moistureproof belt.

Further, the device also comprises a dehumidifying component; the shell is connected with a dehumidifying component; the dehumidifying component comprises an arc-shaped plate, a heating strip, a second housing, a pipeline and an electromagnetic valve; an arc-shaped plate is fixedly connected on the shell, the arc-shaped plate is contacted with the cover plate, and the arc-shaped plate is positioned at the outer side of the rearmost sleeve; a cavity is formed among the shell, the cover plate, the connecting plate and the arc-shaped plate; a plurality of heating strips are fixedly connected on the rearmost round rod; the connecting plate is provided with a second cover shell in a penetrating way; the second housing is communicated with a pipeline, and the end part of the pipeline penetrates into the first housing; the pipeline is provided with an electromagnetic valve.

Further, the device also comprises a funnel; the end of the pipeline is communicated with a funnel which is fixedly connected with the first housing.

Further, an auxiliary component is also included; an auxiliary component is connected to the first support frame at the rearmost part; the auxiliary component comprises a water absorbing plate, a sponge strip and a heating plate; a water absorbing plate is fixedly connected on the first support frame at the rearmost part; the water absorbing plate is fixedly connected with a sponge strip, and the sponge strip is contacted with the corresponding roller; a heating plate is fixedly connected on the first support frame at the rearmost part, and the heating plate is contacted with the water absorbing plate.

Further, a plurality of grooves are formed in the heating plate.

The beneficial effects are that: by adopting the technical scheme, the moisture-proof belt which is saturated in water absorption is wound by the rear sleeve, and the moisture-proof belt which is not absorbed with water vapor is unwound by the front sleeve, so that the moisture-proof belt continuously absorbs the water vapor of the air flowing through the shell, and the problem that the heat dissipation operation is influenced due to the fact that the drying agent absorbs the water vapor is avoided;

the moisture-proof belt is tightly pressed on the connecting plate through the roller, so that the moisture-proof belt is tightly attached to the right opening of the housing, the air flowing through a gap between the moisture-proof belt and the first housing is reduced, the phenomenon of incomplete water vapor absorption is avoided, and meanwhile, the upper edge and the lower edge of the moisture-proof belt are tightly pressed on the connecting plate through the pressing plate, so that the moisture-proof belt is further attached to the right opening of the housing, and the moisture absorption effect of the moisture-proof belt is improved;

the adjacent two sections of the dampproof belts are isolated through the parting strips, so that water is prevented from being transferred to the adjacent dampproof belts, wetting and caking of the dampproof belts wound on the front sleeve are prevented, and heat dissipation operation is prevented from being influenced;

the moisture that will remain in the clamp plate left surface through the piece that absorbs water is absorbed to avoid the problem that the dampproofing area water absorption capacity after unreeling descends, simultaneously, through the heating strip to the dampproofing area heating of moisture, make moisture therein turn into vapor and follow the funnel and discharge, avoid vapor inflow generator body department to cause the interference to its operation, simultaneously, will remain in the drum surface at the rear moisture absorption through the sponge strip, the rethread hot plate heats it to vapor, finally follow the funnel and discharge, further avoid vapor inflow generator body department to cause the interference to its operation.

Drawings

FIG. 1 shows a first structural schematic of a micro-grid based miniature wind generator of the present invention;

FIG. 2 shows a second structural schematic of the micro-grid based miniature wind generator of the present invention;

FIG. 3 is a schematic view of a first construction of a heat dissipating assembly according to the present invention;

FIG. 4 is a schematic view of a second construction of the heat dissipating assembly of the present invention;

FIG. 5 shows a schematic structural view of the fastening assembly of the present invention;

FIG. 6 shows a schematic view of a portion of the construction of the roll extrusion assembly of the present invention;

FIG. 7 shows a schematic view of the construction of the spacer and absorbent member combination of the present invention;

FIG. 8 shows a schematic structural view of the dehumidification assembly of the present invention;

fig. 9 shows a partial schematic view of the auxiliary assembly of the present invention.

Wherein:

the novel electric generator comprises the following components of a 1-supporting rod, a 2-shell, a 3-generator body, a 4-impeller, a 5-cover plate, a 6-connecting block I, a 7-round rod, an 8-sleeve, a 9-moisture-proof belt, a 201-connecting plate, a 202-housing I, a 203-fan, a 204-filter screen, a 205-grid plate, a 206-supporting frame I, a 207-elastic telescopic rod, a 208-connecting block II, a 209-roller, a 2010-driving piece, a 2011-spur gear I, a 2012-spur gear II, a 2013-supporting frame II, a 2014-electric push rod, a 2015-pressing plate, a 2016-parting strip, a 2017-water absorbing piece, a 2018-arc plate, a 2019-heating strip, a 2020-housing II, a 2021-pipeline, a 2022-electromagnetic valve, a 2023-funnel, a 2024-water absorbing plate, a 2025-sponge strip, a 2026-heating plate, a 91-cavity and a 92-groove.

Detailed Description

It should be noted that in the various embodiments described, identical components are provided with identical reference numerals or identical component names, wherein the disclosure contained throughout the description can be transferred in a meaning to identical components having identical reference numerals or identical component names. The position specification, the upper, lower, lateral, etc. selected in the description are also referred to directly in the description and the figures shown and are transferred in the sense of a new position when the position is changed.

Embodiment 1

A micro-grid-based small wind driven generator, as shown in figures 1-7, comprises a support rod 1, a shell 2, a generator body 3 and an impeller 4; the support rod 1 is connected with the shell 2 through bolts, and the support rod 1 is made of alloy materials; the generator body 3 is connected in the shell 2 through bolts; an impeller 4 is fixedly connected on the rotating shaft of the generator body 3; the device also comprises a cover plate 5, a first connecting block 6, a round rod 7, a sleeve 8, a moisture-proof belt 9, a heat dissipation assembly, a rolling assembly and a driving assembly; the shell 2 is connected with a cover plate 5 through bolts; two connecting blocks I6 are welded on the shell 2; a round rod 7 is rotatably connected to each connecting block I6; each round rod 7 is connected with a sleeve 8 in a sliding way; a moisture-proof belt 9 is arranged in the shell 2, one end of the moisture-proof belt 9 is wound on the forefront sleeve 8, the other end of the moisture-proof belt 9 is fixed on the rearmost sleeve 8, and the moisture-proof belt 9 has a ventilation effect; the shell 2 is connected with a heat dissipation component; the heat dissipation component is used for extracting hot air in the shell 2; the shell 2 is connected with a rolling assembly; the rolling assembly is used for enabling the moisture-proof belt 9 to be tightly attached to the inner wall of the shell 2; the shell 2 is connected with a driving component; the driving component is used for driving the round rod 7 to rotate.

The heat dissipation assembly comprises a connecting plate 201, a first housing 202, a fan 203, a filter screen 204 and a grid plate 205; the left side of the shell 2 is connected with a connecting plate 201 through bolts, the connecting plate 201 is contacted with the cover plate 5, and the connecting plate 201 is made of alloy materials; the connecting plate 201 is provided with a first cover shell 202 in a penetrating way; the first housing 202 is arranged in two layers, and the fan 203 is connected with the inner layer of the first housing 202 through bolts; a filter screen 204 is fixedly connected to the first housing 202, and the filter screen 204 is positioned at the left side of the fan 203; a grid plate 205 is bolted to the first housing 202 and the grid plate 205 is positioned to the left of the screen 204, preventing rainwater from entering the first housing 202 through the grid plate 205.

The rolling assembly comprises a first supporting frame 206, an elastic telescopic rod 207, a second connecting block 208 and a roller 209; two first support frames 206 are connected to the shell 2 through bolts; two elastic telescopic rods 207 are fixedly connected to each first support frame 206; the telescopic end of each elastic telescopic rod 207 is fixedly connected with a second connecting block 208; each first support frame 206 is provided with a roller 209 beside, the roller 209 is connected with the corresponding second connecting block 208 in a rotating way, the roller 209 is contacted with the moisture-proof belt 9, and the moisture-proof belt 9 is extruded to the connecting plate 201 through the roller 209, so that the moisture-proof belt 9 is tightly attached to the connecting plate 201.

The driving assembly comprises a driving member 2010, a first spur gear 2011 and a second spur gear 2012; a driving member 2010 is fixedly connected to the shell 2, and the driving member 2010 is an electric motor; the telescopic end of the driving piece 2010 is fixedly connected with a spur gear 2011; the round bar 7 is fixedly connected with a second spur gear 2012, the second spur gear 2012 is meshed with a first spur gear 2011, and the second spur gear 2012 is fixedly connected with the rearmost round bar 7.

The device also comprises a fixing component; the shell 2 is connected with a fixed component; the fixed component comprises a second support frame 2013, an electric push rod 2014 and a pressing plate 2015; the shell 2 is connected with a second support frame 2013 through bolts; two electric push rods 2014 are connected to the second support frame 2013 through bolts; the telescopic end of each electric push rod 2014 is fixedly connected with a pressing plate 2015, the pressing plate 2015 is in contact with the moistureproof belt 9, and the upper edge and the lower edge of the moistureproof belt 9 are pressed on the connecting plate 201 through the pressing plate 2015, so that the sealing performance is improved.

Also included are parting strips 2016; the moisture-proof belt 9 is divided into a plurality of small sections, and a parting bead 2016 is arranged between every two adjacent sections of the moisture-proof belt 9.

A water absorbing member 2017 is also included; the upper end and the lower end of each parting bead 2016 are fixedly connected with a water absorbing piece 2017, the water absorbing piece 2017 is fixedly connected with a moistureproof belt 9, and liquid remained on the pressing plate 2015 is absorbed through the water absorbing piece 2017.

Firstly, the generator body 3 is electrically connected to an external power system by manpower, the impeller 4 is driven to rotate by air flow, the impeller 4 drives the rotating shaft of the generator body 3 to rotate, the generator body 3 converts mechanical energy into electric energy and transmits the electric energy to the external power system, and power generation operation is achieved.

In the power generation process, the generator body 3 runs to generate heat, the heat is dissipated into the air inside the shell 2, the fan 203 is started, the air in the shell 2 is discharged from the first housing 202, and therefore a heat dissipation effect is achieved.

In the air in the shell 2 and the external environment air exchange process, the air needs to flow through the dampproof belt 9, thereby the drier in the dampproof belt 9 absorbs moisture in the air, avoid steam to enter into the shell 2 inside, when the drier that corresponds the position of housing one 202 on the dampproof belt 9 absorbs moisture and reaches saturation, when influencing the air flow, start the driving piece 2010, the driving piece 2010 drives the rotation of spur gear one 2011, spur gear one 2011 drives spur gear two 2012 to rotate, spur gear two 2012 drives the round bar 7 of rear to rotate, round bar 7 drives sleeve 8 to rotate, sleeve 8 carries out the rolling to dampproof belt 9 rear end, thereby the sleeve 8 that will absorb moisture and reach saturation rotates to the sleeve 8 of rear, sleeve 8 drives the round bar 7 of place ahead and rotates, make sleeve 8 on it to the dampproof belt 9 unreel, thereby make dampproof belt 9 not have absorbed part move to housing one 202 right side, continue to absorb the operation in the air, after dampproof belt 9 uses up, manual work opens apron 5, then sleeve 8 and moisture and 9 have taken out through the sleeve 8 and have taken out the moisture and have not had the continuous problem of absorbing moisture through the sleeve 8 through the moisture absorption of the sleeve 8, thereby the moisture absorption problem is avoided the sleeve 9 to absorb moisture through the dampproof belt 9, the continuous operation of the moisture absorption 9 has reached through the sleeve 8 is taken the front to absorb moisture through the sleeve 8.

In the movement process of the moisture-proof belt 9, the moisture-proof belt 9 drives the roller 209 to rotate through friction, the elastic telescopic rod 207 pushes the connecting block II 208 to move through elasticity, so that the connecting block II 208 extrudes the roller 209 onto the moisture-proof belt 9, namely, the moisture-proof belt 9 is tightly pressed on the connecting plate 201 through the roller 209, the moisture-proof belt 9 is tightly attached to the right opening of the first housing 202, the air flowing through a gap between the moisture-proof belt 9 and the first housing 202 is reduced, and the phenomenon of incomplete moisture absorption is avoided.

When the dampproof belt 9 is ready to move, the electric push rod 2014 drives the pressing plate 2015 to be far away from the dampproof belt 9, after the dampproof belt 9 moves, the electric push rod 2014 drives the pressing plate 2015 to move towards the dampproof belt 9, and the upper edge and the lower edge of the dampproof belt 9 are pressed on the connecting plate 201, so that the dampproof belt 9 is further attached to the right opening of the housing one 202, and the absorption effect of the dampproof belt 9 on water vapor is improved.

Moisture can permeate to both sides in dampproofing area 9 voluntarily after moisture absorption steam, and the dampproofing area 9 that leads to the rolling on sleeve 8 in place ahead appears wetting caking phenomenon, leads to its ventilation effect after unreeling low, influences the radiating operation, consequently, separate dampproofing area 9 into a plurality of minor segment, and isolate adjacent two sections dampproofing area 9 through parting bead 2016, avoid the moisture to shift to adjacent dampproofing area 9 to avoid the dampproofing area 9 of rolling on sleeve 8 in place ahead to appear wetting caking, and then avoid influencing the radiating operation.

When the moisture-proof belt 9 is ready to move, the electric push rod 2014 drives the pressing plate 2015 to be far away from the moisture-proof belt 9, part of moisture on the moisture-proof belt 9 remains on the left side surface of the pressing plate 2015, after the movement of the moisture-proof belt 9 is completed, the electric push rod 2014 drives the pressing plate 2015 to move, so that the pressing plate 2015 compresses the moisture-proof belt 9, the moisture remaining on the pressing plate 2015 is absorbed on the moisture-proof belt 9 after unreeling, the moisture absorption capacity of the moisture-proof belt 9 after unreeling is reduced, therefore, when the electric push rod 2014 drives the pressing plate 2015 to be far away from the moisture-proof belt 9, the left side surface of the pressing plate 2015 is aligned with the right side surface of the moisture-absorbing piece 2017, and in the movement process of the moisture-proof belt 9, the moisture-absorbing piece 2017 is driven to move backwards, so that the moisture-absorbing piece 2017 slides from the left side surface of the pressing plate 2015, and the moisture absorption capacity of the moisture-proof belt 9 after unreeling is reduced.

Embodiment 2

On the basis of the embodiment 1, as shown in fig. 1, 6 and 8, a dehumidifying component is also included; the shell 2 is connected with a dehumidifying component; the dehumidifying component comprises an arc-shaped plate 2018, a heating strip 2019, a second housing 2020, a pipeline 2021 and a solenoid valve 2022; an arc-shaped plate 2018 is fixedly connected to the shell 2, the arc-shaped plate 2018 is in contact with the cover plate 5, and the arc-shaped plate 2018 is positioned outside the rearmost sleeve 8; a cavity 91 is formed among the shell 2, the cover plate 5, the connecting plate 201 and the arc-shaped plate 2018; a plurality of heating strips 2019 are fixedly connected on the rearmost round rod 7; the connecting plate 201 is provided with a second cover shell 2020 in a penetrating way, and the second cover shell 2020 is made of alloy material; the second casing 2020 is communicated with and is inserted with a pipeline 2021, and the end part of the pipeline 2021 penetrates into the inner side of the first casing 202, wherein the pipeline 2021 can be set as a soft rubber pipe, and the pipeline 2021 can also be set as a hard plastic pipe; the pipe 2021 is provided with a solenoid valve 2022.

A funnel 2023 is also included; the end of the pipe 2021 is connected with a funnel 2023, and the funnel 2023 is fixedly connected with the first housing 202.

After the humid moisture-proof belt 9 is wound up by the rear sleeve 8, the electromagnetic valve 2022 is opened, so that the middle part of the first cover 202 is in a negative pressure state in the air suction process of the fan 203, thereby part of air inside the first cover 2 flows into the cavity 91 from a gap between the arc 2018 and the connecting plate 201, flows into the first cover 202 from the second cover 2020, the pipeline 2021 and the funnel 2023 in sequence, finally is discharged into the external environment from the first cover 202, in the process, if the generator body 3 is in an operating state, the air flowing into the cavity 91 is hot air, the humid moisture-proof belt 9 is heated by the hot air, if the generator body 3 is in an operating suspension state, the rear sleeve 8 is heated by the heating strip 2019, the moisture in the humid moisture-proof belt 9 is heated to be converted into steam, and then the air in the cavity 91 is discharged from the funnel 2023 through the heating strip 2019, so that the moisture is converted into steam is discharged from the funnel 3, and the steam is prevented from flowing into the generator body 3 to interfere with the operation of the generator body 3.

Embodiment 3

On the basis of the embodiment 2, as shown in fig. 1 and 9, an auxiliary component is further included; an auxiliary component is connected to the rearmost support frame one 206; the auxiliary components comprise a water absorbing plate 2024, a sponge strip 2025 and a heating plate 2026; a water absorbing plate 2024 is fixedly connected to the first support frame 206 at the rearmost part; a sponge strip 2025 is fixedly connected to the water absorbing plate 2024, the sponge strip 2025 is contacted with the corresponding roller 209, and liquid remained on the surface of the roller 209 is absorbed by the sponge strip 2025; a heating plate 2026 is fixedly connected to the first support frame 206 at the rearmost position, and the heating plate 2026 is contacted with the water absorbing plate 2024.

The heating plate 2026 is provided with a plurality of grooves 92.

In the process of moving the moisture-proof belt 9, the moisture-proof belt 9 drives the roller 209 to rotate through friction force, namely the roller 209 at the rear is equivalent to rolling on the surface of the moist moisture-proof belt 9, and then moisture is adhered to the surface of the roller 209 at the rear, therefore, in the process of rotating the roller 209 at the rear, the roller 209 and the sponge strip 2025 slide relatively, so that the sponge strip 2025 absorbs the moisture on the surface of the roller 209, the moisture automatically permeates into the water absorbing plate 2024 through the sponge strip 2025, then the heating plate 2026 heats the water absorbing plate 2024, the moisture in the water absorbing plate 2024 is converted into water vapor, the water vapor is discharged into the cavity 91 through the grooves 92 and then is discharged from the funnel 2023, and in use, the moisture remained on the surface of the roller 209 at the rear is absorbed through the sponge strip 2025, and then heated into water vapor through the heating plate 2026, and finally the water vapor is discharged from the funnel 2023, so that the water vapor is further prevented from flowing into the generator body 3 to interfere with the operation.

It should be understood that this example is only illustrative of the invention and is not intended to limit the scope of the invention. Further, it is understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the present invention, and such equivalents are intended to fall within the scope of the claims appended hereto.

Claims (6)

1. A micro-grid-based small wind driven generator comprises a supporting rod (1); a shell (2) is fixedly connected on the supporting rod (1); a generator body (3) is fixedly connected in the shell (2); an impeller (4) is fixedly connected on the rotating shaft of the generator body (3); it is characterized in that a cover plate (5) is fixedly connected on the shell (2); at least two first connecting blocks (6) are fixedly connected to the shell (2); a round rod (7) is rotatably connected to each connecting block I (6); each round rod (7) is connected with a sleeve (8) in a sliding way; a moisture-proof belt (9) is arranged in the shell (2), one end of the moisture-proof belt (9) is wound on the forefront sleeve (8), the other end of the moisture-proof belt (9) is fixed on the rearmost sleeve (8), and the moisture-proof belt (9) has a ventilation effect; the shell (2) is connected with a heat dissipation component; the heat dissipation component is used for extracting hot air in the shell (2); the shell (2) is connected with a rolling assembly; the rolling assembly is used for enabling the moisture-proof belt (9) to be tightly attached to the inner wall of the shell (2); the shell (2) is connected with a driving component; the driving component is used for driving the round rod (7) to rotate;

the rolling assembly comprises a first supporting frame (206); at least two first support frames (206) are fixedly connected to the shell (2); at least two elastic telescopic rods (207) are fixedly connected to each first support frame (206); the telescopic end of each elastic telescopic rod (207) is fixedly connected with a second connecting block (208); a roller (209) is arranged beside each first support frame (206), the roller (209) is rotationally connected with the corresponding second connecting block (208), and the roller (209) is contacted with the moistureproof belt (9);

the device also comprises a fixing component; the shell (2) is connected with a fixed component; the fixing component comprises a second supporting frame (2013); a second support frame (2013) is fixedly connected to the shell (2); at least two electric push rods (2014) are fixedly connected to the second support frame (2013); the telescopic end of each electric push rod (2014) is fixedly connected with a pressing plate (2015), and the pressing plates (2015) are contacted with the moistureproof belt (9);

also includes a parting bead (2016); the moistureproof belt (9) is divided into a plurality of small sections, and a parting bead (2016) is arranged between every two adjacent sections of moistureproof belts (9);

also comprises a water absorbing piece (2017); the upper end and the lower end of each parting bead (2016) are fixedly connected with a water absorbing piece (2017), and the water absorbing piece (2017) is fixedly connected with a moistureproof belt (9).

2. A micro-grid based miniature wind generator according to claim 1, characterized in that the heat dissipating assembly comprises a connection plate (201); a connecting plate (201) is fixedly connected to the left side of the shell (2), and the connecting plate (201) is contacted with the cover plate (5); the connecting plate (201) is provided with a first cover shell (202) in a penetrating way; the first housing (202) is arranged in two layers, and the inner layer of the first housing (202) is connected with a fan (203) through bolts; a filter screen (204) is fixedly connected to the first housing (202), and the filter screen (204) is positioned at the left side of the fan (203); a grid plate (205) is fixedly connected on the first housing (202), and the grid plate (205) is positioned at the left side of the filter screen (204).

3. The micro-grid-based small wind generator of claim 1, further comprising a dehumidifying component; the shell (2) is connected with a dehumidifying component; the dehumidifying component comprises an arc-shaped plate (2018); an arc-shaped plate (2018) is fixedly connected to the shell (2), the arc-shaped plate (2018) is in contact with the cover plate (5), and the arc-shaped plate (2018) is positioned outside the rearmost sleeve (8); a cavity (91) is formed among the shell (2), the cover plate (5), the connecting plate (201) and the arc-shaped plate (2018); a plurality of heating strips (2019) are fixedly connected on the rearmost round rod (7); a second cover shell (2020) is arranged on the connecting plate (201) in a penetrating way; a pipeline (2021) is communicated with the second housing (2020), and the end part of the pipeline (2021) penetrates into the inner side of the first housing (202); a solenoid valve (2022) is mounted to the pipe (2021).

4. A micro grid based small wind generator according to claim 3, further comprising a funnel (2023); the end of the pipeline (2021) is communicated with a funnel (2023), and the funnel (2023) is fixedly connected with the first housing (202).

5. A micro-grid based miniature wind generator according to any of claims 3-4, further comprising an auxiliary component; an auxiliary component is connected to the rearmost support frame I (206); the auxiliary assembly comprises a water absorbing plate (2024); a water absorbing plate (2024) is fixedly connected on the first support frame (206) at the rearmost part; a sponge strip (2025) is fixedly connected on the water absorbing plate (2024), and the sponge strip (2025) is contacted with the corresponding roller (209); a heating plate (2026) is fixedly connected to the first support frame (206) at the rearmost part, and the heating plate (2026) is contacted with the water absorbing plate (2024).

6. The micro-grid-based small wind generator according to claim 5, wherein the heating plate (2026) is provided with a plurality of grooves (92).