CN113700365B

CN113700365B - AP basic station based on new forms of energy

Info

Publication number: CN113700365B
Application number: CN202110953194.7A
Authority: CN
Inventors: 李胜宏; 谢进东
Original assignee: Shenzhen Saixiu Technology Co ltd
Current assignee: Shenzhen Saixiu Technology Co ltd
Priority date: 2021-08-18
Filing date: 2021-08-18
Publication date: 2022-08-05
Anticipated expiration: 2041-08-18
Also published as: CN113700365A

Abstract

The invention discloses a new energy-based AP (access point) base station, and relates to the technical field of new energy AP base stations, in particular to a base station tower and a protective component, wherein ladder stand components are arranged on the side surface of the base station tower at equal intervals, the protective component is arranged on one side of the ladder stand components, hole grooves are formed in two sides of a protective rod, a buckling component is connected to the side surface of a torsion spring, a first motor winding disc is connected to the top of the protective rod, a second motor winding disc is connected to the bottom end of a thread rope, a glass cover is embedded into the surface of the protective rod, and magnetic iron is arranged on the inner side surface of a lantern ring. This AP basic station based on new forms of energy based on the block principle of the lantern ring with buckle spare to the realization is to personnel's safety protection, avoids personnel to drop, and inside buckle spare preferred retraction protective rod when the lantern ring slides from top to bottom, so that the lantern ring smoothly slides, deuterogamies heating and the scrubbing to the ladder pole, realizes the cleanness after the personnel climbing, also avoids the wet and smooth personnel that cause of ladder pole surface to drop.

Description

AP basic station based on new forms of energy

Technical Field

The invention relates to the technical field of new energy AP base stations, in particular to an AP base station based on new energy.

Background

The new energy generally refers to renewable energy developed and utilized on the basis of new technology, wherein one of the new energy is solar energy with the characteristics of no pollution and reproducibility, the solar energy is used as one of the new energy to realize power generation by means of solar heat radiation energy, and the technical development of the new energy based on the solar energy is that an AP base station is also changed from the original power supply by overlapping wires of a power plant into the current power supply by the solar energy, so that the self-power supply is realized, and even the reverse power supply can be realized while the self-power supply is ensured.

Current solar energy AP basic station realizes the self-power based on the new forms of energy, nevertheless owing to need the periodic maintenance to overhaul, needs maintainer periodic climbing basic station, and the protection of nevertheless basic station when climbing personnel is only pure in the peripheral parcel round guardrail bar of cat ladder, though avoided personnel can not drop to the cat ladder outside, nevertheless can't solve from the root and fall dangerous, can constantly collide with guardrail bar when personnel fall moreover and easily lead to the injury serious.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an AP base station based on new energy, and solves the problems that the conventional solar AP base station in the background art realizes self power supply based on new energy, but as regular maintenance and overhaul are required and maintenance personnel need to climb the base station regularly, the base station only wraps a circle of guardrail bar around a ladder stand for protecting personnel during climbing, the personnel cannot fall outside the ladder stand but cannot solve the falling danger from the root, and the personnel can collide with the guardrail bar continuously to cause serious injury when falling.

In order to achieve the purpose, the invention is realized by the following technical scheme: an AP base station based on new energy comprises a base station tower and a protective component, wherein the side surface of the base station tower is provided with a ladder stand component in an equidistant manner, the outside of the base station tower is provided with a solar photovoltaic panel, the protective component is arranged on one side of the ladder stand component, the protective component comprises a protective rod, a hole groove, a torsional spring, a buckling piece, a linkage piece, a first motor rolling disc, a cord, a linkage column, a first magnet, a second motor rolling disc, a glass cover, a lantern ring, magnetic iron and a protective shoulder strap, the two sides of the protective rod are provided with the hole groove, the interior of the hole groove is connected with the torsional spring, the side surface of the torsional spring is connected with the buckling piece, the other side surface of the torsional spring is connected with the linkage piece, the top of the protective rod is connected with the first motor rolling disc, the surface of the first motor rolling disc is connected with the cord, and the bottom end of the cord is connected with the second motor rolling disc, and the middle section of cotton rope is connected with the linkage post, the surperficial top of linkage post is provided with first magnet, and the surperficial bottom of linkage post is provided with second magnet, the guard bar surface embedding has the glass cover, and the outside of guard bar has cup jointed the lantern ring, the medial surface of the lantern ring is provided with magnetic iron, and the lantern ring is connected with the protection braces through the nylon rope.

Optionally, the ladder assembly comprises a ladder rod, a hollow inner cavity and a heating wire, the hollow inner cavity is formed in the ladder rod, the heating wire is arranged in the hollow inner cavity, and the heating wire is electrically connected with the solar photovoltaic panel through a wire.

Optionally, the linkage column is connected with the magnetic iron through a first magnet and a second magnet in a magnetic adsorption manner, and the linkage column vertically moves in the protection rod through a first motor winding disc, a thread rope and a second motor winding disc.

Optionally, the buckle part and the linkage part are elastically connected with the hole groove through a torsion spring, and the bottom of the linkage part is in a conical protruding shape.

Optionally, sliding balls are uniformly embedded in the inner surface of the magnetic iron and the inner surface of the lantern ring, and the lantern ring makes vertical sliding motion on the outer surface of the guard bar through the magnetic iron, the sliding balls and the linkage column.

Optionally, the right side face of the buckle part and the left side face of the linkage part are both connected with a corrugated pipe sleeve, and the shape of the corrugated pipe sleeve is matched with the shape of the inside of the hole groove.

It is optional, the outer wall of ladder pole is provided with the scrubbing subassembly, the scrubbing subassembly includes that shell, left return wheel, right side remove wheel, bearing, mill dirty dish, driving belt, driving disc and driving motor, the left side of shell is provided with left return wheel, and the right side of shell is provided with the right side and removes the wheel, the inside equidistance form rotation that is of shell is connected with the bearing, and the side of bearing is provided with the mill dirty dish, the outer wall meshing of mill dirty dish is connected with driving belt, and driving belt's bottom is connected with the driving disc, one side of driving disc is connected with driving motor.

Optionally, the dirt grinding disc is sleeved outside the ladder rod, and the front surface and the rear surface of the dirt grinding disc are rotationally connected with the bearing.

Optionally, the surface of the dirt grinding disc is frosted, and movable balls are embedded in the dirt grinding disc.

Optionally, the movable balls are distributed in an annular shape about the central axis of the dirt grinding disc, and the dirt grinding disc performs reciprocating sliding motion along the surface of the ladder stand rod through the left return wheel and the right moving wheel.

The invention provides an AP base station based on new energy, which has the following beneficial effects:

based on the block principle of the lantern ring and buckle spare to the realization is to personnel's safety protection, avoids personnel to drop, and inside buckle spare preferred retraction protective rod when the lantern ring slides from top to bottom, so that the lantern ring smoothly slides, deuterogamies heating and the scrubbing to the ladder pole, realizes the cleanness after personnel's climbing, also avoids the wet and smooth personnel that cause of ladder pole surface to drop.

1. This AP basic station based on new forms of energy, the lantern ring is based on magnetism iron and first magnet, the adsorption between the second magnet is along with the synchronous up-and-down motion of linkage post, the linkage post is prior to lantern ring contact linkage piece and is made inside buckle spare rotates to the fender rod, so that the lantern ring slides from top to bottom, and when personnel carelessly fall, the lantern ring can block inside the buckle spare of linkage post below, because personnel dress protection braces, thereby fundamentally prevents personnel from falling, and need not the guardrail bar and can avoid personnel and rather than bump and cause the damage.

2. This AP basic station based on new forms of energy, transparency through the glass cover makes things convenient for magnetic iron and first magnet, second magnet adsorbs, and the internal surface of magnetic iron has the slip ball with the even embedding of the internal surface of the lantern ring, reduce the frictional force of the lantern ring when the fender rod surface slides through the slip ball, so that the lantern ring smoothly slides, and can seal hole groove and buckle spare through telescopic ripple pipe box, the gap between the linkage spare, not influencing the buckle spare, avoid external biology when the linkage spare is rotatory, impurity enters into inside the fender rod.

3. This AP basic station based on new forms of energy, the mill dirty dish is a one-to-one correspondence with the ladder pole, and it slides along ladder pole surface to grind dirty dish pivoted simultaneously, is favorable to wearing to go to persist in the spot on ladder pole surface because of personnel's climbing for ladder pole surface keeps clean, avoids the spot to climb on-process adhesion to personnel's dress or health afterwards.

4. This AP basic station based on new forms of energy, the heater wire circular telegram can heat the cat ladder pole for spot fast drying, so that the dish of polishing dirty eliminates, avoids spot adhesion to the dish surface of polishing dirty, is favorable to improving the decontamination effect to the cat ladder pole, and the cat ladder pole is heated and keeps warm, and the hand when climbing for the people keeps the temperature under cold weather, avoids the hand to freeze stifled and causes the climbing to lose the slip.

5. This AP basic station based on new forms of energy, dirty dish of mill is located cat ladder pole minor face department when idle, remove the wheel through the right side and realize sliding from the right side left and carry out the scrubbing, and return the return that the wheel is located the cat ladder pole bottom and realize the scrubbing after, and because return the wheel on a left side and be located the cat ladder pole bottom can avoid contacting with the spot, reduce and the cat ladder pole between frictional force through movable ball when dirty dish of mill removes moreover, remove the wheel cooperation with the right side simultaneously and keep the stability of dirty dish of mill, also make the wheel of returning on a left side hug closely in the cat ladder pole bottom and realize the return operation.

Drawings

FIG. 1 is a schematic diagram of a base station tower according to the present invention;

FIG. 2 is a schematic view of the internal structure of the guard bar of the present invention;

FIG. 3 is a schematic top view of the guard bar of the present invention;

FIG. 4 is a schematic view of the cover of the present invention shown in a non-sliding configuration;

FIG. 5 is a schematic view of the sliding structure of the jacket along the surface of the ladder bar according to the present invention;

fig. 6 is a schematic perspective view of the dirt grinding disc of the present invention.

In the figure: 1. a base station tower; 2. a ladder assembly; 201. a ladder bar; 202. a hollow inner cavity; 203. a heating wire; 3. a solar photovoltaic panel; 4. a guard assembly; 401. a guard bar; 402. a hole groove; 403. a torsion spring; 404. a fastener; 405. a linkage member; 406. a first motor take-up reel; 407. a cord; 408. a linkage column; 409. a first magnet; 410. a second magnet; 411. a second motor take-up reel; 412. a glass cover; 413. a collar; 414. magnetic iron; 415. a protective harness; 5. a sliding ball; 6. a bellows sleeve; 7. a decontamination assembly; 701. a housing; 702. a left return wheel; 703. a right moving wheel; 704. a bearing; 705. a sewage grinding disc; 706. a drive belt; 707. a drive plate; 708. a drive motor; 8. a movable ball.

Detailed Description

The invention provides a technical scheme that: as shown in fig. 1-3, an AP base station based on new energy includes a base station tower 1 and a protection component 4, a ladder assembly 2 is disposed on a side surface of the base station tower 1 in an equidistant manner, a solar photovoltaic panel 3 is disposed outside the base station tower 1, the protection component 4 is disposed on one side of the ladder assembly 2, the protection component 4 includes a protection rod 401, a hole 402, a torsion spring 403, a fastener 404, a link 405, a first motor winding disc 406, a cord 407, a link column 408, a first magnet 409, a second magnet 410, a second motor winding disc 411, a glass cover 412, a collar 413, a magnetic iron 414, and a protection strap 415, the hole 402 is disposed on two sides of the protection rod 401, the torsion spring 403 is connected inside the hole 402, the fastener 404 is connected to a side surface of the torsion spring 403, the link 405 is connected to another side surface of the torsion spring 403, the first motor winding disc 406 is connected to a top of the protection rod 401, a cord 407 is connected to the surface of the first motor winding disc 406, a second motor winding disc 411 is connected to the bottom end of the cord 407, a linkage column 408 is connected to the middle section of the cord 407, a first magnet 409 is arranged at the top of the surface of the linkage column 408, a second magnet 410 is arranged at the bottom of the surface of the linkage column 408, a glass cover 412 is embedded into the surface of the guard bar 401, a lantern ring 413 is sleeved outside the guard bar 401, a magnetic iron 414 is arranged on the inner side surface of the lantern ring 413, and the lantern ring 413 is connected with a guard strap 415 through a nylon cord;

the specific operation is as follows, the rope 407 is wound and unwound through the second motor winding disc 411 and the first motor winding disc 406 to enable the linkage column 408 to ascend and descend vertically, a person wears the protective harness 415 to climb along the ladder climbing rod 201, at the moment, the magnetic iron 414 on the inner side of the collar 413 is adsorbed to the second magnet 410, the adsorption condition can be observed through the glass cover 412, then the linkage column 408 ascends to enable the top of the linkage column 413 to contact with the linkage 405 preferentially, the linkage 405 is stressed to rotate into the hole groove 402, so that the buckling piece 404 is also contracted into the hole groove 402, at the moment, the collar 413 smoothly ascends along with the linkage column 408, the buckling piece 404 and the linkage 405 below the linkage column 408 ascend and reset through the torsion spring 403, at the moment, if the person falls, the collar 413 slides downwards to be clamped into the buckling piece 404 to prevent the person from falling, and when the person needs to climb downwards, the magnetic iron 414 is adsorbed to the first magnet 409, then, the collar 413 descends along with the linkage column 408, and the linkage column 408 repeats the above operations to firstly retract the fastener 404 into the hole 402, so that the collar 413 slides smoothly.

As shown in fig. 2-3, the linkage column 408 is magnetically attracted and connected with the magnetic iron 414 through the first magnet 409, the second magnet 410, and the magnetic iron 414, the linkage column 408 vertically moves up and down inside the protection rod 401 through the first motor winding disc 406, the cord 407, and the second motor winding disc 411, the fastener 404 and the linkage 405 are elastically connected with the hole 402 through the torsion spring 403, and the bottom of the linkage 405 is in a conical protrusion shape;

when the collar 413 is lifted, the magnetic iron 414 is connected with the second magnet 410 in an adsorption manner, and when the collar 413 is lowered, the magnetic iron 414 is connected with the first magnet 409 in an adsorption manner, so that the linkage column 408 is always in contact with the linkage piece 405 before the collar 413, and the collar 413 can smoothly slide up and down without being blocked.

As shown in fig. 2-3, sliding balls 5 are uniformly embedded in the inner surface of the magnetic iron 414 and the inner surface of the collar 413, the collar 413 makes vertical sliding motion on the outer surface of the guard bar 401 through the magnetic iron 414, the sliding balls 5 and the linkage column 408, the corrugated pipe sleeves 6 are connected to the right side surface of the buckle 404 and the left side surface of the linkage 405, and the shapes of the corrugated pipe sleeves 6 are matched with the inner shape of the hole 402;

the operation is as follows, when the lantern ring 413 slides up and down on the surface of the guard bar 401, the friction force can be reduced through the sliding ball 5, meanwhile, the lantern ring 413 is stressed uniformly and slides stably, the corrugated pipe sleeve 6 has a telescopic function and stretches along with the rotation of the buckling piece 404 and the linkage piece 405, so that the gap between the hole groove 402 and the buckling piece 404 and the linkage piece 405 is sealed, and the entering of external impurities and organisms is avoided.

As shown in fig. 1 and 4-6, the crawling ladder assembly 2 comprises a crawling ladder rod 201, a hollow inner cavity 202 and a heating wire 203, the hollow inner cavity 202 is formed in the crawling ladder rod 201, the heating wire 203 is arranged in the hollow inner cavity 202, and the heating wire 203 is electrically connected with the solar photovoltaic panel 3 through a conducting wire;

solar photovoltaic board 3 provides the electric power energy for heater wire 203 and makes heater wire 203 generate heat, heater wire 203 heats cat ladder pole 201 in hollow inner chamber 202 inside generating heat, make cat ladder pole 201 surface spot, moisture fast drying, the hand when still can climbing personnel simultaneously provides the heat source, be favorable to keeping hand temperature and avoid the frozen stiff under cold weather, and the stoving of moisture makes cat ladder pole 201 surface drying, avoid the wet and smooth personnel that lead to take place to fall when the climbing.

As shown in fig. 4-6, the outer wall of the ladder climbing rod 201 is provided with a decontamination assembly 7, the decontamination assembly 7 comprises a casing 701, a left return wheel 702, a right moving wheel 703, a bearing 704, a decontamination disc 705, a driving belt 706, a driving disc 707 and a driving motor 708, the left side of the casing 701 is provided with the left return wheel 702, the right side of the casing 701 is provided with the right moving wheel 703, the inside of the casing 701 is rotatably connected with the bearing 704 in an equidistant manner, the side surface of the bearing 704 is provided with the decontamination disc 705, the outer wall of the decontamination disc 705 is engaged and connected with the driving belt 706, the bottom of the driving belt 706 is connected with the driving disc 707, one side of the driving disc 707 is connected with the driving motor 708, the decontamination disc 705 is sleeved outside the ladder climbing rod 201, the front surface and the rear surface of the decontamination disc are rotatably connected with the bearing 704, the movable balls 8 are distributed in an annular shape around the central axis 705 of the decontamination disc 705, and the decontamination disc is connected with the driving motor 705 through the left return wheel 702, the left return wheel 703 and the right moving wheel 703, The right moving wheel 703 makes reciprocating sliding motion along the surface of the ladder stand 201;

in detail, after the person climbs the ladder bar 201, the right moving wheel 703 is started based on the energy provided by the solar photovoltaic panel 3, thereby pushing the jacket 701 to slide along the surface of the ladder climbing rod 201 from right to left, simultaneously driving the driving disc 707 by the driving motor 708 to enable the driving belt 706 to rotate with the dirt grinding disc 705, rotating the dirt grinding disc 705 in the moving process to grind and remove the dried dirt on the surface of the ladder climbing rod 201, thereby ensuring the surface of the climbing pole 201 to be clean, so that the body and clothes of a person can be kept clean when the person climbs next time, and the left return wheel 702 is actuated to push the casing 701 back to the original position after decontamination, i.e. at the short side of the U-shaped casing 701, which does not interfere with the climbing of the person, wherein bearings 704 are respectively attached to the front and rear surfaces of the disc 705, so that the disc 705 moves synchronously with the housing 701, this arrangement also leaves the outer periphery of the abrasive disc 705 exposed for rotation in meshing engagement with the drive belt 706.

As shown in fig. 4 and 6, the surface of the dirt disc 705 is frosted, and movable balls 8 are embedded in the dirt disc 705;

the concrete operation is as follows, the movable ball 8 is embedded in the dirt grinding disc 705 in a ring shape, when the dirt grinding disc 705 moves, the movable ball 8 rolls on the surface of the ladder climbing rod 201, so that the friction force between the movable ball and the ladder climbing rod 201 during moving is reduced, meanwhile, the movable ball is matched with the right moving wheel 703 to keep the stability of the dirt grinding disc 705, and the left returning wheel 702 is tightly attached to the bottom of the ladder climbing rod 201 to realize returning operation.

In summary, when the AP base station based on new energy is used, firstly, the cord 407 is wound and unwound through the second motor winding disc 411 and the first motor winding disc 406, so that the linkage column 408 ascends and descends, a person wears the protective harness 415 to climb along the ladder climbing rod 201, the magnetic iron 414 inside the collar 413 is adsorbed to the second magnet 410, the adsorption condition can be observed through the glass cover 412, then the linkage column 408 ascends, the top of the linkage column 408 is preferentially contacted with the collar 413 and the linkage 405, the linkage 405 rotates to the inside of the hole groove 402 under the stress, so that the buckling piece 404 is also contracted into the hole groove 402, at the moment, the collar 413 smoothly ascends along with the linkage column 408, and the buckling piece 404 and the linkage 405 below the linkage column 408 are reset through the torsion spring 403 after the linkage column 408 ascends;

then when the person needs to climb downwards, the magnetic iron 414 is adsorbed to the first magnet 409, then the lantern ring 413 descends along with the linkage column 408, the linkage column 408 repeats the above operations to firstly enable the buckling piece 404 to be retracted into the hole groove 402, so that the lantern ring 413 slides smoothly downwards, when the person climbs upwards and downwards and falls, the lantern ring 413 slides downwards to be clamped into the buckling piece 404, the person wearing the protection harness 415 stops falling, and therefore the person is prevented from falling fundamentally;

when climbing, the solar photovoltaic panel 3 provides electric energy for the heating wire 203 to enable the heating wire 203 to generate heat, the heating wire 203 generates heat inside the hollow inner cavity 202 to heat the ladder rod 201, stains and moisture on the surface of the ladder rod 201 are dried quickly, meanwhile, a heat source can be provided for hands of people when climbing, the temperature of the hands can be kept in favor of avoiding freezing and stiffness in cold weather, the surfaces of the ladder rods 201 are dried through drying of the moisture, and people are prevented from falling off when climbing due to wet and slippery;

after stains and moisture are dried, the right moving wheel 703 is started based on energy provided by the solar photovoltaic panel 3, so that the sleeve case 701 is pushed to slide from right to left along the surface of the ladder rod 201, meanwhile, the driving motor 708 drives the driving disc 707 to enable the driving belt 706 to rotate with the dirt grinding disc 705, the dirt grinding disc 705 rotates in the moving process to grind and remove the dried stains on the surface of the ladder rod 201, and therefore the surface of the ladder rod 201 is ensured to be clean, a body and clothes of a person can be kept clean when climbing next time, and the left returning wheel 702 is started to push the sleeve case 701 to return to the original position after dirt removal, namely the short edge of the U-shaped sleeve case 701 is not interfered by climbing of the person;

and when the dirt grinding disc 705 moves, the movable ball 8 rolls on the surface of the ladder climbing rod 201, so that the friction force between the movable ball and the ladder climbing rod 201 during moving is reduced, and meanwhile, the movable ball is matched with the right moving wheel 703 to keep the stability of the dirt grinding disc 705, so that the left return wheel 702 is tightly attached to the bottom of the ladder climbing rod 201 to realize return operation.

Claims

1. The utility model provides a AP basic station based on new forms of energy, includes base station tower (1) and protection component (4), its characterized in that: the base station tower comprises a base station tower (1), a ladder stand component (2) is arranged on the side face of the base station tower (1) in an equidistant mode, a solar photovoltaic panel (3) is arranged outside the base station tower (1), a protective component (4) is arranged on one side of the ladder stand component (2), the protective component (4) comprises a protective rod (401), a hole groove (402), a torsion spring (403), a buckling piece (404), a linkage piece (405), a first motor winding disc (406), a thread rope (407), a linkage column (408), a first magnet (409), a second magnet (410), a second motor winding disc (411), a glass cover (412), a lantern ring (413), a magnetic iron (414) and a protective shoulder strap (415), the hole groove (402) is formed in each of two sides of the protective rod (401), the torsion spring (403) is connected inside the hole groove (402), the buckling piece (404) is connected to the side face of the torsion spring (403), and the linkage piece (405) is connected to the side face of the torsion spring (403), the top of the protection rod (401) is connected with a first motor winding disc (406), the surface of the first motor winding disc (406) is connected with a wire rope (407), the bottom end of the wire rope (407) is connected with a second motor winding disc (411), the middle section of the wire rope (407) is connected with a linkage column (408), the top of the surface of the linkage column (408) is provided with a first magnet (409), the bottom of the surface of the linkage column (408) is provided with a second magnet (410), the surface of the protection rod (401) is embedded with a glass cover (412), the outer part of the protection rod (401) is sleeved with a lantern ring (413), the inner side of the lantern ring (413) is provided with a magnetic iron (414), the lantern ring (413) is connected with a protection strap (415) through a nylon rope, and the linkage column (408) is connected with the magnetic iron (414) through a first magnet (409), a second magnet (410), and the linkage column (408) is vertically lifted and lowered inside the protective rod (401) through the first motor winding disc (406), the thread rope (407) and the second motor winding disc (411), the buckling piece (404) and the linkage piece (405) are elastically connected with the hole groove (402) through the torsion spring (403), the bottom of the linkage piece (405) is in a conical protruding shape, sliding balls (5) are uniformly embedded into the inner surface of the magnetic iron (414) and the inner surface of the lantern ring (413), the lantern ring (413) vertically slides on the outer surface of the protective rod (401) through the magnetic iron (414), the sliding balls (5) and the linkage column (408), the right side surface of the buckling piece (404) and the left side surface of the linkage piece (405) are respectively connected with a corrugated pipe sleeve (6), and the shape of the corrugated pipe sleeve (6) is matched with the inner shape of the hole groove (402).

2. The AP base station based on the new energy resource according to claim 1, wherein: the ladder stand component (2) comprises a ladder stand rod (201), a hollow inner cavity (202) and a heating wire (203), the hollow inner cavity (202) is formed in the ladder stand rod (201), the heating wire (203) is arranged in the hollow inner cavity (202), and the heating wire (203) is electrically connected with the solar photovoltaic panel (3) through a wire.

3. The AP base station based on the new energy resource as claimed in claim 2, wherein: the outer wall of ladder climbing pole (201) is provided with scrubbing subassembly (7), scrubbing subassembly (7) are including cover shell (701), left return wheel (702), right removal wheel (703), bearing (704), the dish that rubs dirty (705), driving belt (706), driving disc (707) and driving motor (708), the left side of cover shell (701) is provided with left return wheel (702), and the right side of cover shell (701) is provided with right removal wheel (703), cover shell (701) inside is the equidistance form and rotates and be connected with bearing (704), and the side of bearing (704) is provided with the dish that rubs dirty (705), the outer wall meshing of the dish that rubs dirty (705) is connected with driving belt (706), and the bottom of driving belt (706) is connected with driving disc (707), one side of driving disc (707) is connected with driving motor (708).

4. The AP base station based on the new energy resource as claimed in claim 3, wherein: the dirt grinding disc (705) is sleeved outside the ladder climbing rod (201), and the front surface and the rear surface of the dirt grinding disc (705) are in rotating connection with the bearing (704).

5. The AP base station based on the new energy resource as claimed in claim 3, wherein: the surface of the dirt grinding disc (705) is frosted, and movable balls (8) are embedded in the dirt grinding disc (705).

6. The AP base station based on the new energy resource as claimed in claim 5, wherein: the movable ball (8) is distributed in a ring shape relative to the central axis of the dirt grinding disc (705), and the dirt grinding disc (705) makes reciprocating sliding motion along the surface of the stair climbing rod (201) through the left return wheel (702) and the right moving wheel (703).