CN109140337B - Street lamp capable of removing dust on inner wall - Google Patents

Abstract

The invention belongs to the field of street lamps, and particularly relates to a street lamp capable of removing dust on the inner wall, which comprises a lamp post and a street lamp mechanism, wherein the street lamp mechanism is arranged at the top of the lamp post; the street lamp realizes automatic dust removal by utilizing wind energy, and the maintenance cost of the street lamp is greatly reduced; workers do not need to climb to the top of the lamp post for maintenance, and the danger possibly caused by ascending of maintenance personnel is avoided; the centrifugal wheel can identify the wind speed, if the wind speed is low, the centrifugal wheel does not interact with the first rack, and the dust removing strip does not play a dust removing role; if the wind speed is high, the centrifugal wheel interacts with the first rack, so that the dust removing strip reciprocates for four times in the lampshade to clean the inner wall of the lampshade; the dust removal strip moves down along the sliding of lamp shade inner wall bottom and the horizontal hunting simultaneously at the second rack for more stubborn dust obtains clearing up in the lamp shade, makes the dust removal effect in the lamp shade furthest reach the dust removal requirement, and the result of use after the lamp shade removes dust is better.

Description

Street lamp capable of removing dust on inner wall

Technical Field

The invention belongs to the field of street lamps, and particularly relates to a street lamp capable of removing dust on the inner wall.

Background

The traditional street lamp at present mainly comprises a reflector lamp cover, a lampshade and a bulb; after the street lamp is used for a period of time, because the sealing fails, a lot of dust can be accumulated on the inner wall of the lampshade, and therefore the lighting effect of the street lamp is influenced; if the dust in the lampshade needs to be cleaned, only a manual dust removal mode is adopted; workers climb to the top of the street lamp pole by using engineering machinery, open the street lamp shade and clean dust in the street lamp shade; the traditional street lamp has high dust removal cost and limited dust removal speed; in addition, in the manual dust removal process, the personal safety of workers is threatened to a certain extent, and a certain safety accident can be caused by carelessness, so that great economic loss is caused.

The invention designs a street lamp capable of removing dust on the inner wall, which solves the problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention discloses a street lamp capable of removing dust on the inner wall, which is realized by adopting the following technical scheme.

The utility model provides a can clear away street lamp of inner wall dust which characterized in that: the street lamp comprises a lamp post and a street lamp mechanism, wherein the street lamp mechanism is arranged on the top of the lamp post.

The street lamp mechanism comprises a transmission shell, a transmission cavity, a dust exhaust hole, a linking square hole, a first square sliding hole, a second trapezoid sliding groove, a lamp cover, a transmission groove, a second square sliding hole, a third trapezoid sliding groove, a fourth trapezoid sliding groove, a lamp shade, a wave rack, a centrifugal wheel mechanism, a dust removal strip mechanism, a telescopic column, a second reset spring, a lamp holder, a lamp bulb, an incomplete gear, a first telescopic inner rod, a flat key, a first telescopic outer sleeve, a key groove, a first telescopic spring, a positioning ring, a positioning plate, a ring groove, a rod hole, a fixing block, a fixing hole, a second bevel gear, a supporting plate, a first rack, a first trapezoid sliding strip, a rack sliding rail, a first trapezoid sliding groove, a first reset spring, a transmission shaft, a first bevel gear, a dust exhaust fan and a driving fan, wherein the transmission cavity is formed in the transmission; one side end face of the transmission shell is provided with a dust exhaust hole which is communicated with the transmission cavity; the lower end of the side end face adjacent to the side end face provided with the dust exhaust hole on the transmission shell is provided with a connecting square hole which is communicated with the transmission cavity; a through first square sliding hole is formed between the side end face of the transmission shell provided with the connecting square hole and the side end face opposite to the side end face, and the first square sliding hole is tangent to the inner wall of the transmission cavity; a second trapezoidal sliding groove is formed in the side face, tangent to the first square sliding hole, of the transmission cavity, and two ends of the second trapezoidal sliding groove are communicated with the first square sliding hole; the second trapezoidal sliding chute penetrates through two side end faces of the transmission shell, wherein the first square sliding hole is formed in the transmission shell; the transmission shell is arranged at the top end of the lamp post through the lower end surface of the transmission shell; the centrifugal wheel mechanism and the first bevel gear are arranged in a transmission cavity of the transmission shell through a transmission shaft; the center of the dust exhaust fan is provided with a shaft hole; the dust exhaust fan is arranged on the transmission shaft in a matching way through a key between the shaft hole on the dust exhaust fan and the transmission shaft, and the dust exhaust fan is embedded into the dust exhaust hole through the outer circular surface of the dust exhaust fan; one end of the transmission shaft is matched with the bearing on the inner wall of the transmission cavity, and the other end of the transmission shaft penetrates through the shaft hole on the dust exhaust fan and extends out of the transmission shell; the center of the driving fan is provided with a shaft hole; the driving fan is arranged on one end of the transmission shaft extending out of the transmission shell in a matching way through a key between the shaft hole on the driving fan and the transmission shaft; the first bevel gear is in key fit with the transmission shaft.

A first trapezoidal sliding groove is formed in one side end face of the rack sliding rail; the rack sliding rail is fixedly arranged in the transmission cavity through the upper end surface of the rack sliding rail; a first rack is arranged on one side end face of the supporting plate; a first trapezoidal sliding strip is arranged on the side end face, opposite to the side end face provided with the first rack, of the supporting plate; the supporting plate is arranged on the rack sliding rail through the sliding fit of the first trapezoidal sliding strip and the first trapezoidal sliding groove; the first rack is matched with the centrifugal wheel mechanism; the first reset spring is positioned in the first trapezoidal sliding groove, and two ends of the first reset spring are respectively connected with the inner wall of the transmission cavity and the upper end face of the supporting plate; a through fixing hole is formed between the upper end surface and the lower end surface of the fixing block; the fixed block is fixedly arranged on the inner wall of the transmission cavity through one side end face on the fixed block, and the fixed block is positioned below the first bevel gear; two key grooves are uniformly formed in the circumferential direction of the inner circular surface of the first telescopic outer sleeve; the first telescopic outer sleeve is embedded into the fixing hole through the outer circular surface of the first telescopic outer sleeve, and the sleeve opening of the first telescopic outer sleeve is downward; the outer circle surface of the first telescopic outer sleeve is matched with the inner circle surface of the fixing hole through a bearing; two flat keys are uniformly arranged on the outer circular surface of the first telescopic inner rod in the circumferential direction; one end of the first telescopic inner rod is arranged in the first telescopic outer sleeve in a sliding fit manner through the flat key and the key groove; the first telescopic spring is positioned in the first telescopic outer sleeve; one end of the first telescopic spring is connected with the end face of the first telescopic inner rod, and the other end of the first telescopic spring is connected with the inner wall of the first telescopic outer sleeve; the second bevel gear is arranged at the upper end of the first telescopic outer sleeve and meshed with the first bevel gear; a through rod hole is formed between the upper end surface and the lower end surface of the positioning plate; the inner circle surface of the rod hole is provided with a ring groove along the circumferential direction; the positioning ring is embedded into the ring groove; the lower end of the first telescopic inner rod penetrates through the rod hole from top to bottom; the outer circular surface of the first telescopic inner rod is fixedly connected with the inner circular surface of the positioning ring; the positioning plate is fixedly connected with the lower end surface of the supporting plate through the upper end surface of one end of the positioning plate; the outer circular surface of the incomplete gear is provided with teeth with radian of 270-320 degrees; the incomplete gear is arranged at the lower end of the first telescopic inner rod; the lamp holder is arranged at the bottom of the transmission cavity; the bulb is installed on the lamp stand, and bulb one end passes the square hole that links up on the transmission chamber.

The lower end surface of the lamp cover is provided with a transmission groove; a second square sliding hole is formed in one side face of the transmission groove, and one side face of the second square sliding hole is tangent to one side face of the transmission groove; a third trapezoidal sliding groove is formed in the side face, tangent to the second square sliding hole, in the transmission groove, and one end of the third trapezoidal sliding groove is communicated with the second square sliding hole; one end of the third trapezoidal sliding chute, which is communicated with the second square sliding hole, penetrates through the side end face of the lamp cover, which is provided with the second square sliding hole; a fourth trapezoidal sliding groove is formed in the side face, opposite to the side face on which the third trapezoidal sliding groove is formed, of the transmission groove; the lamp cover is fixedly connected with the side end face of the transmission shell, which is provided with the connecting square hole, through the side end face of the second square sliding hole; the second square sliding hole is in butt joint with the first square sliding hole; the third trapezoidal sliding groove is in butt joint with the second trapezoidal sliding groove; the dust removing strip mechanism is arranged in a transmission groove of the lamp cover; the telescopic column is positioned in the transmission groove; one end of the telescopic column is connected with the side surface of the transmission groove, which is provided with the second square sliding hole, and the other end of the telescopic column is connected with the dedusting strip mechanism; the second return spring is wound on the outer side of the telescopic column; one end of the second return spring is connected with the inner wall of the transmission groove, and the other end of the second return spring is connected with the dedusting strip mechanism; the lower end of one side surface of the inner wall of the lampshade is provided with a wave rack; the lampshade is arranged on the lower end surface of the lamp cover; the lampshade is matched with the dedusting strip mechanism; the wavy rack is matched with the dedusting strip mechanism; the bulb is located in the lamp shade.

The centrifugal wheel mechanism comprises a centrifugal wheel, a limiting groove, a transmission shaft hole, a gear block and a limiting spring, wherein a plurality of limiting grooves are uniformly formed in the circumferential direction of the outer circular surface of the centrifugal wheel; a through transmission shaft hole is formed between the two end faces of the centrifugal wheel; each limiting groove is internally provided with a tooth block and a limiting spring; one end of the limiting spring is connected with the inner wall of the limiting groove, and the other end of the limiting spring is connected with the end face of the tooth block; the centrifugal wheel is arranged on the transmission shaft in a matched manner through the transmission shaft hole and the key of the outer circular surface of the transmission shaft; the tooth blocks arranged in the limit grooves are matched with the first racks.

The dust removing strip mechanism comprises a joint rod, a joint block, a trapezoidal sliding block, a second rack, a second trapezoidal sliding strip, a second telescopic outer sleeve, a second telescopic inner rod, a second telescopic spring, a pressing block, a T-shaped sliding groove, a T-shaped sliding block, a third return spring and a dust removing strip, wherein the second trapezoidal sliding strip is arranged on the side end face of the second rack; the second rack is arranged on the inner wall of the lamp cover in a sliding fit manner through the second trapezoidal sliding strip, the third trapezoidal sliding groove and the second trapezoidal sliding groove; one end of the second rack sequentially passes through the second square sliding hole and the first square sliding hole to enter the transmission cavity; one end of the second rack entering the transmission cavity is matched with the incomplete gear; a trapezoidal sliding block is arranged on the side end face of the connecting block; the connecting block is arranged on the inner wall of the lamp cover through the sliding fit of the trapezoidal sliding block and the fourth trapezoidal sliding groove; the joint block is connected with the second rack through a joint rod; one side end face of the connecting rod is fixedly connected with the telescopic column; two second telescopic outer sleeves are symmetrically arranged on the lower end surfaces of two ends of the connecting rod, and sleeve openings of the two second telescopic outer sleeves are downward; the two second telescopic inner rods are respectively inserted into the two second telescopic outer sleeves through respective one ends; the two second telescopic springs are respectively positioned in the two second telescopic outer sleeves; one end of the second telescopic spring is connected with the inner wall of the second telescopic outer sleeve, and the other end of the second telescopic spring is connected with the end face of the second telescopic inner rod; the lower end surface of the pressing block is provided with a T-shaped sliding chute; the pressing block is fixedly connected with the end surfaces of the two second telescopic inner rods through the upper end surface of the pressing block; the upper end surface of the dust removing strip is provided with a T-shaped sliding block; the dedusting strip is arranged on the lower end surface of the pressing block through the sliding fit of the T-shaped sliding block and the T-shaped sliding groove; the third return spring is positioned in the T-shaped sliding groove; one end of the third return spring is connected with the inner wall of the T-shaped sliding groove, and the other end of the third return spring is connected with the T-shaped sliding block; the lower end surface of the dust removing strip is in contact fit with the bottom of the inner wall of the lampshade; one end of the dust removing strip is matched with the wavy rack arranged on the inner wall of the lampshade.

As a further improvement of the present technology, the cross-sectional dimension of the second trapezoidal sliding groove is equal to the cross-sectional dimension of the third trapezoidal sliding groove.

As a further improvement of the present technology, the cross-sectional dimension of the first square slide hole is equal to the cross-sectional dimension of the second square slide hole.

As a further improvement of the technology, the top surface of the transmission groove of the lamp cover is provided with a light reflecting coating.

As a further improvement of the present technology, the second extension spring is always in a compressed state.

As a further improvement of the present technology, the transmission ratio of the first bevel gear to the second bevel gear is 1: 4.

as a further improvement of the technology, the bottom of the dust removing strip is provided with a rubber layer.

As a further improvement of the present technology, the above-mentioned incomplete gear is located above the second rack in the initial state, and at this time, the incomplete gear does not interact with the second rack.

As a further improvement of the present technology, the length of the first rack is greater than the sum of the thickness of the incomplete gear and the width of the second rack.

The dust exhaust fan is designed to enable dust to enter the transmission cavity through the connecting hole when the dust removing strip in the lampshade cleans the dust, and the dust exhaust fan exhausts the dust entering the transmission cavity out of the lampshade.

The incomplete gear is designed to drive the fan to drive the centrifugal wheel and the first bevel gear to rotate through the transmission shaft when the speed of wind is relatively low; the first bevel gear drives the incomplete gear to rotate through the second bevel gear, the first telescopic outer sleeve and the first telescopic inner rod; at the moment, under the action of a limiting spring, the centrifugal force generated by the tooth block in the centrifugal wheel is not enough to enable the tooth block to slide outwards along the limiting groove; the centrifugal wheel does not interact with the first rack; the first rack cannot slide downwards along the first trapezoidal sliding groove; the first rack cannot drive the incomplete gear to move downwards through the positioning plate, the positioning ring and the first telescopic inner rod; the incomplete gear does not interact with the second rack; when high-speed wind pushes the driving fan to rotate, the driving fan drives the centrifugal wheel and the first bevel gear to synchronously and rapidly rotate through the transmission shaft; the gear block in the limiting groove on the centrifugal wheel slides outwards along the limiting groove under the action of centrifugal force, and the limiting spring is stretched; the centrifugal wheel forms a gear in the autorotation process and is meshed with the first rack; the rotation of the centrifugal wheel drives the first rack to slide downwards along the first trapezoidal sliding groove; the first rack drives the first telescopic inner rod to slide downwards in the first telescopic outer sleeve through the positioning plate and the positioning ring; meanwhile, the first bevel gear drives the first telescopic inner rod to rotate through the second bevel gear and the first telescopic outer sleeve; the first telescopic inner rod drives the incomplete gear to move downwards and rotate at the same time; the incomplete gear interacts with the second rack; the second rack slides along the third trapezoidal sliding groove and the second trapezoidal sliding groove; the second rack drives the dust removal strip to slide along the bottom of the lampshade through the connecting rod, the second telescopic outer sleeve, the second telescopic inner rod and the pressing block; the sliding of the dust removing strip scrapes off the dust at the bottom of the inner wall of the lampshade; since the transmission ratio of the first bevel gear to the second bevel gear is 1: 4, when the centrifugal wheel and the first bevel gear synchronously rotate for one circle, the second bevel gear drives the incomplete gear to rotate for four circles through the telescopic outer sleeve and the first telescopic inner rod; because the outer circular surface of the incomplete gear is provided with the teeth with the radian of 270-320 degrees, when the incomplete gear rotates for one circle, the second rack and the incomplete gear do not act after the action of the second rack and the teeth on the incomplete gear is finished, and the second rack returns to the initial position instantly under the action of the second return spring; thereby ensuring that the dust removing strip forms four reciprocating sliding under the action of wind power and realizing the four reciprocating cleaning of the lampshade by the dust removing strip; when the wind speed is gradually reduced, the incomplete gear continues to rotate, and the tooth block in the centrifugal wheel shrinks into the limit groove under the action of the limit spring; the tooth block releases the limitation on the first rack; the first rack moves upwards along the first trapezoidal sliding groove under the action of the first return spring to return to the initial position; the first rack drives the incomplete gear to move upwards through the positioning plate, the positioning ring and the first telescopic inner rod and interacts with the second rack; the incomplete gear drives the dedusting strip to slide along the bottom of the lampshade through a second rack, a connecting rod, a second telescopic outer sleeve, a second telescopic inner rod and a pressing block; when the dedusting strip slides back and forth for four times under the action of the incomplete gear, the incomplete gear continues to move upwards to be separated from the second rack and return to the initial position.

The design purpose of the invention that the length of the first rack is larger than the sum of the thickness of the incomplete gear and the width of the second rack is that when the first rack moves downwards to the limit, the incomplete gear is separated from the second rack, and the incomplete gear does not interact with the second rack any more.

The design purpose of the wavy rack is that when the dust removing strip slides along the bottom of the inner wall of the lampshade, one end of the dust removing strip moves from the trough of the wavy rack to the crest along the tooth edge; the dust removing strip moves along the length direction of the dust removing strip under the action of the wave rack teeth; the dust removing strip drives the T-shaped sliding block to slide along the T-shaped sliding groove; the third return spring is compressed; when one end of the dust removing strip, which is in contact with the wave rack, reaches the wave crest on the wave rack, the movement of the dust removing strip is stopped, and the third return spring is compressed to the shortest extent; the dust removing strip is driven by the second rack to continuously slide along the bottom of the lampshade; one end of the dedusting strip, which is in contact with the wave rack, starts to move from the wave crest on the wave rack to the wave trough; under the action of a third return spring, the dedusting strip moves reversely along the length direction; in the process that the second rack drives the dust removing strip to slide along the bottom of the lampshade, the dust removing strip repeatedly acts with teeth on the wavy rack, and one end of the dust removing strip, which is in contact with the wavy rack, reciprocates between wave crests and wave troughs on the wavy rack; therefore, the dust removing strip can swing left and right while sliding linearly along the bottom of the inner wall of the lampshade; and then make the dust removal strip better more thorough to the inner wall clearance effect of lamp shade.

The centrifugal wheel mechanism is designed to drive the fan to drive the centrifugal wheel and the first bevel gear to rotate through the transmission shaft when the speed of wind is relatively low; the first bevel gear drives the incomplete gear to rotate through the second bevel gear, the first telescopic outer sleeve and the first telescopic inner rod; at the moment, under the action of a limiting spring, the centrifugal force generated by the tooth block in the centrifugal wheel is not enough to enable the tooth block to slide outwards along the limiting groove; the centrifugal wheel does not interact with the first rack; the first rack cannot slide downwards along the first trapezoidal sliding groove; the first rack cannot drive the incomplete gear to move downwards through the positioning plate, the positioning ring and the first telescopic inner rod; the incomplete gear does not interact with the second rack; the second rack can not slide along the second trapezoidal sliding groove and the third trapezoidal sliding groove; the connecting rod connected with the second rack does not move; the dust removing strip connected with the connecting rod through the second telescopic outer sleeve, the second telescopic inner rod and the pressing block does not move; the dust removing strip does not play a role in removing dust; when high-speed wind pushes the driving fan to rotate, the driving fan drives the centrifugal wheel and the first bevel gear to synchronously and rapidly rotate through the transmission shaft; the gear block in the limiting groove on the centrifugal wheel slides outwards along the limiting groove under the action of centrifugal force, and the limiting spring is stretched; the centrifugal wheel forms a gear in the autorotation process and is meshed with the first rack; the rotation of the centrifugal wheel drives the first rack to slide downwards along the first trapezoidal sliding groove; the first rack drives the first telescopic inner rod to slide downwards in the first telescopic outer sleeve through the positioning plate and the positioning ring; meanwhile, the first bevel gear drives the first telescopic inner rod to rotate through the second bevel gear and the first telescopic outer sleeve; the first telescopic inner rod drives the incomplete gear to move downwards and rotate at the same time; the incomplete gear interacts with the second rack; the second rack slides along the third trapezoidal sliding groove and the second trapezoidal sliding groove; the second rack drives the dust removal strip to slide along the bottom of the lampshade through the connecting rod, the second telescopic outer sleeve, the second telescopic inner rod and the pressing block; the sliding of the dust removing strip scrapes off the dust at the bottom of the inner wall of the lampshade; meanwhile, one end of the dust removing strip acts on the wavy rack, and the wavy rack and the third return spring enable the dust removing strip to linearly slide along the bottom of the lampshade and swing left and right at the same time; the dust removing strips can clean dust in the lampshade more thoroughly, so that the aim of removing dust better is fulfilled; because the outer circular surface of the incomplete gear is provided with the teeth with the radian of 270-320 degrees, when the incomplete gear rotates for one circle, the second rack and the incomplete gear do not act after the action of the second rack and the teeth on the incomplete gear is finished, and the second rack returns to the initial position instantly under the action of the second return spring; in the process of resetting the dust removing strip, the dust removing strip slides linearly along the bottom of the lampshade and swings left and right under the combined action of the second reset spring and the wavy rack; therefore, secondary cleaning of the lampshade is realized in the resetting process of the dust removing strip; when the centrifugal wheel drives the first rack to move downwards to the limit position, the first return spring is stretched to the limit position, the whole second rack passes over the centrifugal wheel and does not act with the centrifugal wheel any more, and the second rack does not continue to move downwards any more; at the moment, the centrifugal wheel just rotates for a circle, the incomplete gear is separated from the second rack and does not interact with the second rack, the second rack and the dust removing strip finally return to the initial position under the action of the second return spring, the dust removing strip does not slide back and forth along the bottom of the inner wall of the lampshade, and the dust removing process is finished; since the transmission ratio of the first bevel gear to the second bevel gear is 1: 4, when the centrifugal wheel and the first bevel gear synchronously rotate for one circle, the second bevel gear drives the incomplete gear to rotate for four circles through the telescopic outer sleeve and the first telescopic inner rod; thereby ensuring that the dust removing strip forms four reciprocating sliding under the action of wind power and realizing the four reciprocating cleaning of the lampshade by the dust removing strip; when the wind speed is gradually reduced, the incomplete gear continues to rotate, and the tooth block in the centrifugal wheel shrinks into the limit groove under the action of the limit spring; the tooth block releases the limitation on the first rack; the first rack moves upwards along the first trapezoidal sliding groove under the action of the first return spring to return to the initial position; the first rack drives the incomplete gear to move upwards through the positioning plate, the positioning ring and the first telescopic inner rod and interacts with the second rack; the incomplete gear drives the dedusting strip to slide along the bottom of the lampshade through a second rack, a connecting rod, a second telescopic outer sleeve, a second telescopic inner rod and a pressing block; the dedusting strip swings left and right under the action of the wavy rack; when the dust removing strip slides back and forth for four times under the action of the incomplete gear, the incomplete gear is separated from the second rack; the dedusting strip finally returns to the initial position under the action of a second return spring; dust brought up by the dust removing strips in the lampshade is discharged out of the lampshade by the dust discharge fan through the connecting holes; until the wind gradually slows down and stops; driving the fan to stop rotating; the centrifugal wheel, the first bevel gear, the second bevel gear and the incomplete gear stop rotating.

When the speed of wind is relatively low, the fan is driven to drive the centrifugal wheel and the first bevel gear to rotate through the transmission shaft; the first bevel gear drives the incomplete gear to rotate through the second bevel gear, the first telescopic outer sleeve and the first telescopic inner rod; at the moment, under the action of a limiting spring, the centrifugal force generated by the tooth block in the centrifugal wheel is not enough to enable the tooth block to slide outwards along the limiting groove; the centrifugal wheel does not interact with the first rack; the first rack cannot slide downwards along the first trapezoidal sliding groove; the first rack cannot drive the incomplete gear to move downwards through the positioning plate, the positioning ring and the first telescopic inner rod; the incomplete gear does not interact with the second rack; the second rack can not slide along the second trapezoidal sliding groove and the third trapezoidal sliding groove; the connecting rod connected with the second rack does not move; the dust removing strip connected with the connecting rod through the second telescopic outer sleeve, the second telescopic inner rod and the pressing block does not move; the dust removing strip does not play a role in removing dust.

When high-speed wind pushes the driving fan to rotate, the driving fan drives the centrifugal wheel and the first bevel gear to synchronously and rapidly rotate through the transmission shaft; the gear block in the limiting groove on the centrifugal wheel slides outwards along the limiting groove under the action of centrifugal force, and the limiting spring is stretched; the centrifugal wheel forms a gear in the autorotation process and is meshed with the first rack; the rotation of the centrifugal wheel drives the first rack to slide downwards along the first trapezoidal sliding groove; the first rack drives the first telescopic inner rod to slide downwards in the first telescopic outer sleeve through the positioning plate and the positioning ring; meanwhile, the first bevel gear drives the first telescopic inner rod to rotate through the second bevel gear and the first telescopic outer sleeve; the first telescopic inner rod drives the incomplete gear to move downwards and rotate at the same time; the incomplete gear interacts with the second rack; the second rack slides along the third trapezoidal sliding groove and the second trapezoidal sliding groove; the second rack drives the dust removal strip to slide along the bottom of the lampshade through the connecting rod, the second telescopic outer sleeve, the second telescopic inner rod and the pressing block; the sliding of the dust removing strip scrapes off the dust at the bottom of the inner wall of the lampshade; meanwhile, one end of the dust removing strip acts on the wavy rack, and the wavy rack and the third return spring enable the dust removing strip to linearly slide along the bottom of the lampshade and swing left and right at the same time; the dust removing strips can clean dust in the lampshade more thoroughly, so that the aim of removing dust better is fulfilled; because the outer circular surface of the incomplete gear is provided with the teeth with the radian of 270-320 degrees, when the incomplete gear rotates for one circle, the second rack and the incomplete gear do not act after the action of the second rack and the teeth on the incomplete gear is finished, and the second rack returns to the initial position instantly under the action of the second return spring; in the process of resetting the dust removing strip, the dust removing strip slides linearly along the bottom of the lampshade and swings left and right under the combined action of the second reset spring and the wavy rack; therefore, secondary cleaning of the lampshade is realized in the resetting process of the dust removing strip; when the centrifugal wheel drives the first rack to move downwards to the limit position, the first return spring is stretched to the limit position, the whole second rack passes over the centrifugal wheel and does not act with the centrifugal wheel any more, and the second rack does not continue to move downwards any more; at the moment, the centrifugal wheel just rotates for a circle, the incomplete gear is separated from the second rack and does not interact with the second rack, the second rack and the dust removing strip finally return to the initial position under the action of the second return spring, the dust removing strip does not slide back and forth along the bottom of the inner wall of the lampshade, and the dust removing process is finished; since the transmission ratio of the first bevel gear to the second bevel gear is 1: 4, when the centrifugal wheel and the first bevel gear synchronously rotate for one circle, the second bevel gear drives the incomplete gear to rotate for four circles through the telescopic outer sleeve and the first telescopic inner rod; thereby ensuring that the dust removing strip forms four reciprocating sliding under the action of wind power; the dust removing strip stops returning to the initial position to stop moving after cleaning the lampshade for four times in a short time, so that the influence of the reciprocating motion of the dust removing strip on the light of the street lamp is avoided, and the lighting effect of the street lamp is not influenced.

When the wind speed is gradually reduced, the incomplete gear continues to rotate, and the tooth block in the centrifugal wheel shrinks into the limit groove under the action of the limit spring; the tooth block releases the limitation on the first rack; the first rack moves upwards along the first trapezoidal sliding groove under the action of the first return spring to return to the initial position; the first rack drives the incomplete gear to move upwards through the positioning plate, the positioning ring and the first telescopic inner rod and interacts with the second rack; the incomplete gear drives the dedusting strip to slide along the bottom of the lampshade through a second rack, a connecting rod, a second telescopic outer sleeve, a second telescopic inner rod and a pressing block; the dedusting strip swings left and right under the action of the wavy rack; when the dust removing strip slides back and forth for four times under the action of the incomplete gear, the incomplete gear is separated from the second rack; the dedusting strip finally returns to the initial position under the action of a second return spring; dust brought up by the dust removing strips in the lampshade is discharged out of the lampshade by the dust discharge fan through the connecting holes; until the wind gradually slows down and stops; driving the fan to stop rotating; the centrifugal wheel, the first bevel gear, the second bevel gear and the incomplete gear stop rotating; the lamp shade is cleaned again, so that the lighting effect of the street lamp is better.

Compared with the traditional street lamp, the street lamp realizes automatic dust removal by utilizing wind energy, and greatly reduces the maintenance cost of the street lamp; workers do not need to climb to the top of the lamp post for maintenance, and the danger possibly caused by ascending of maintenance personnel is avoided; the centrifugal wheel can identify the wind speed, if the wind speed is low, the centrifugal wheel does not interact with the first rack, the dust removing strip does not move, and the dust removing strip does not play a dust removing role; if the wind speed is high, the centrifugal wheel interacts with the first rack, so that the dust removing strip reciprocates for four times in the lampshade to clean the inner wall of the lampshade; when the wind speed is reduced, the dust removing strip cleans the lampshade again in a reciprocating way in the incomplete gear resetting process, so that the dust removing effect of the lampshade is better; the dedusting strip slides along the bottom of the inner wall of the lampshade under the action of the second rack and swings left and right at the same time, so that more stubborn dust in the lampshade is cleaned, the dedusting effect in the lampshade can meet the dedusting requirement to the maximum extent, and the lampshade can be dedusted to a better use effect; the invention has simple structure and better use effect.

Drawings

Fig. 1 is a perspective view of a street light mechanism and a light pole.

Fig. 2 is a schematic perspective view of a street light mechanism.

Fig. 3 is a schematic perspective view of the drive housing.

Fig. 4 is a schematic cross-sectional view of the drive housing.

Fig. 5 is a schematic perspective view of a lamp cover.

Fig. 6 is a schematic cross-sectional view of a lamp cover.

Fig. 7 is a schematic view of a lamp housing.

Fig. 8 is a schematic view of the transmission profile inside the transmission housing.

FIG. 9 is a cross-sectional view of the first telescoping inner pole, the first telescoping outer sleeve, and the incomplete gear.

Fig. 10 is a schematic view of the first telescoping inner pole, the first telescoping outer sleeve, and the incomplete gear fit.

Fig. 11 is a schematic cross-sectional view of the telescopic post, the second return spring, the lamp cover and the lamp housing.

FIG. 12 is a top cross-sectional view of the drive housing and its internal drive.

Fig. 13 is a top cross-sectional view of the lamp cover, the transmission housing and its internal transmission.

Fig. 14 is a schematic view of the internal transmission section of the street lamp.

Fig. 15 is a schematic view of a dusting bar mechanism.

Fig. 16 is a schematic cross-sectional view of a dusting bar mechanism.

Fig. 17 is a schematic view of the transmission within the transmission housing.

Fig. 18 is a schematic view of the transmission section inside the transmission housing.

Fig. 19 is a schematic view of the fixing block, the positioning plate, the first telescopic inner rod and the first telescopic outer sleeve being engaged with each other.

FIG. 20 is a schematic sectional view of a compact.

FIG. 21 is a schematic cross-sectional view of the combination of the pressing block and the dust-removing strip.

Fig. 22 is a perspective schematic view of the positioning plate.

FIG. 23 is a cross-sectional view of the positioning plate.

Fig. 24 is a perspective schematic view of a fixed block.

FIG. 25 is a schematic view of the first rack, the pallet, and the first trapezoidal shaped slide.

Fig. 26 is a schematic view of a rack slide.

Fig. 27 is a perspective view of the first telescoping outer sleeve, the first telescoping inner rod, and the first telescoping spring.

FIG. 28 is a cross-sectional view of the first telescoping outer sleeve, the first telescoping inner rod, and the first telescoping spring in combination.

Figure 29 is a partial schematic view of a first telescoping inner pole.

Fig. 30 is a perspective schematic view of a first telescoping jacket.

Fig. 31 is a perspective schematic view of a centrifugal gear mechanism.

Fig. 32 is a schematic sectional view of the centrifugal gear mechanism.

FIG. 33 is a schematic view of a centrifugal wheel.

Number designation in the figures: 1. a lamp post; 2. a street lamp mechanism; 3. a drive housing; 4. a transmission cavity; 5. a dust exhaust hole; 6. connecting the square holes; 7. a first square slide hole; 8. a second trapezoidal chute; 9. a lamp cover; 10. a transmission groove; 11. a second square slide hole; 12. a third trapezoidal chute; 13. a lamp shade; 14. a wave rack; 15. a dust removal strip mechanism; 16. a connecting rod; 17. a joining block; 18. a trapezoidal slider; 19. a second rack; 20. a second trapezoidal slide bar; 21. a second telescopic coat; 22. a second telescopic inner rod; 23. a second extension spring; 24. briquetting; 25. a T-shaped chute; 26. a T-shaped slider; 27. a third return spring; 28. a dust removal strip; 29. a telescopic column; 30. a second return spring; 31. a lamp socket; 32. a bulb; 33. an incomplete gear; 34. a first telescopic inner rod; 35. a flat bond; 36. a first telescoping outer sleeve; 37. a keyway; 38. a first extension spring; 39. a positioning ring; 40. positioning a plate; 41. a ring groove; 42. a rod hole; 43. a fixed block; 44. a fixing hole; 45. a second bevel gear; 46. a support plate; 47. a first rack; 48. a first trapezoidal slide bar; 49. a rack slide rail; 50. a first trapezoidal chute; 51. a first return spring; 52. a drive shaft; 53. a first bevel gear; 54. a centrifugal wheel; 55. a limiting groove; 56. a transmission shaft hole; 57. a tooth block; 58. a limiting spring; 59. a dust exhaust fan; 60. driving a fan; 61. a centrifugal wheel mechanism; 62. a fourth trapezoidal chute.

Detailed Description

As shown in fig. 1, it comprises a lamp post 1 and a street lamp mechanism 2, wherein the street lamp mechanism 2 is installed on the top of the lamp post 1.

As shown in fig. 2 and 14, the street lamp mechanism 2 includes a transmission housing 3, a transmission cavity 4, a dust exhaust hole 5, a square engaging hole 6, a first square sliding hole 7, a second trapezoid sliding slot 8, a lamp cover 9, a transmission slot 10, a second square sliding hole 11, a third trapezoid sliding slot 12, a fourth trapezoid sliding slot 62, a lamp shade 13, a wave rack 14, a centrifugal wheel mechanism 61, a dust removing bar mechanism 15, a telescopic column 29, a second return spring 30, a lamp holder 31, a lamp bulb 32, an incomplete gear 33, a first telescopic inner rod 34, a flat key 35, a first telescopic outer sleeve 36, a key slot 37, a first telescopic spring 38, a positioning ring 39, a positioning plate 40, a ring slot 41, a rod hole 42, a fixing block 43, a fixing hole 44, a second bevel gear 45, a supporting plate 46, a first rack 47, a first trapezoid sliding bar 48, a rack sliding rail 49, a first trapezoid sliding slot 50, a first return spring 51, a transmission shaft 52, a first bevel gear 53, a second, A dust exhaust fan 59 and a driving fan 60, wherein as shown in fig. 4, a transmission cavity 4 is formed in the transmission shell 3; as shown in fig. 3, a dust exhaust hole 5 is formed on one side end face of the transmission housing 3, and the dust exhaust hole 5 is communicated with the transmission cavity 4; as shown in fig. 4, the lower end of the side end surface of the transmission case 3 adjacent to the side end surface provided with the dust exhaust hole 5 is provided with a connection square hole 6, and the connection square hole 6 is communicated with the transmission cavity 4; as shown in fig. 3 and 4, a through first square sliding hole 7 is formed between the side end surface of the transmission shell 3 provided with the connecting square hole 6 and the side end surface opposite to the side end surface, and the first square sliding hole 7 is tangential to the inner wall of the transmission cavity 4; a second trapezoidal sliding chute 8 is formed in the side surface, tangent to the first square sliding hole 7, of the transmission cavity 4, and two ends of the second trapezoidal sliding chute 8 are communicated with the first square sliding hole 7; the second trapezoidal sliding chute 8 penetrates through two side end faces of the transmission shell 3, which are provided with the first square sliding holes 7; as shown in fig. 1, the transmission housing 3 is installed on the top end of the lamp post 1 through the lower end surface thereof; as shown in fig. 12, the centrifugal wheel mechanism 61 and the first bevel gear 53 are installed in the transmission cavity 4 of the transmission housing 3 through the transmission shaft 52; as shown in fig. 18, the dust exhaust fan 59 has a shaft hole at the center; as shown in fig. 10 and 12, the dust exhausting fan 59 is mounted on the transmission shaft 52 by the key fit between the shaft hole thereof and the transmission shaft 52, and the dust exhausting fan 59 is inserted into the dust exhausting hole 5 through the outer circumferential surface thereof; one end of the transmission shaft 52 is matched with the bearing on the inner wall of the transmission cavity 4, and the other end of the transmission shaft passes through the shaft hole on the dust exhaust fan 59 and extends out of the transmission shell 3; as shown in fig. 18, the driving fan 60 has a shaft hole at the center; as shown in fig. 12, the driving fan 60 is mounted on one end of the driving shaft 52 protruding to the outside of the driving case 3 through a key fit between a shaft hole thereof and the driving shaft 52; the first bevel gear 53 is in key fit with the transmission shaft 52.

As shown in fig. 26, a first trapezoidal sliding groove 50 is formed on one side end surface of the rack slide rail 49; as shown in fig. 9, the rack slide rail 49 is fixedly installed in the transmission chamber 4 through the upper end surface thereof; as shown in fig. 25, a first rack 47 is mounted on one side end surface of the pallet 46; a first trapezoidal slide bar 48 is arranged on the side end surface of the supporting plate 46 opposite to the side end surface on which the first rack 47 is arranged; as shown in fig. 12, the supporting plate 46 is mounted on the rack slide rail 49 through the sliding fit of the first trapezoidal slide bar 48 and the first trapezoidal slide groove 50; as shown in fig. 17, the first rack 47 is engaged with the centrifugal wheel mechanism 61; as shown in fig. 8 and 18, the first return spring 51 is located in the first trapezoidal sliding groove 50, and two ends of the first return spring 51 are respectively connected with the inner wall of the transmission cavity 4 and the upper end face of the supporting plate 46; as shown in fig. 24, a through fixing hole 44 is formed between the upper and lower end faces of the fixing block 43; as shown in fig. 10, the fixed block 43 is fixedly mounted on the inner wall of the transmission chamber 4 through one lateral end surface thereof, and the fixed block 43 is located below the first bevel gear 53; as shown in fig. 30, two key slots 37 are uniformly arranged on the inner circumferential surface of the first telescopic outer sleeve 36 in the circumferential direction; as shown in fig. 9, the first outer telescoping sleeve 36 is inserted into the fixing hole 44 through the outer circumference thereof, and the cuff of the first outer telescoping sleeve 36 is downward; the outer circular surface of the first telescopic outer sleeve 36 is matched with the inner circular surface of the fixing hole 44 through a bearing; as shown in fig. 29, two flat keys 35 are uniformly arranged on the outer circumferential surface of the first telescopic inner rod 34 in the circumferential direction; as shown in fig. 27, one end of the first telescoping inner rod 34 is mounted in the first telescoping outer sleeve 36 by a sliding fit of the flat key 35 and the keyway 37; as shown in FIG. 28, the first telescoping spring 38 is located in the first telescoping outer sleeve 36; one end of the first telescopic spring 38 is connected with the end surface of the first telescopic inner rod 34, and the other end is connected with the inner wall of the first telescopic outer sleeve 36; as shown in fig. 18, the second bevel gear 45 is installed at the upper end of the first telescopic outer jacket 36, and the second bevel gear 45 is engaged with the first bevel gear 53; as shown in fig. 22, a through rod hole 42 is formed between the upper and lower end faces of the positioning plate 40; as shown in fig. 23, the inner circumferential surface of the rod hole 42 is circumferentially provided with a ring groove 41; as shown in fig. 19, the retaining ring 39 is inserted into the annular groove 41; the lower end of the first telescopic inner rod 34 passes through the rod hole 42 from top to bottom; the outer circular surface of the first telescopic inner rod 34 is fixedly connected with the inner circular surface of the positioning ring 39; the positioning plate 40 is fixedly connected with the lower end surface of the supporting plate 46 through the upper end surface of one end of the positioning plate; the outer circular surface of the incomplete gear 33 is provided with teeth with radian of 270-320 degrees; as shown in fig. 17, the incomplete gear 33 is installed at the lower end of the first telescopic inner pole 34; as shown in fig. 8, the lamp holder 31 is installed at the bottom of the transmission chamber 4; the bulb 32 is mounted on the lamp holder 31, and one end of the bulb 32 passes through the square engaging hole 6 of the transmission cavity 4.

As shown in fig. 5, the lower end surface of the lamp cover 9 is provided with a transmission groove 10; a second square sliding hole 11 is formed in one side surface of the transmission groove 10, and one side surface of the second square sliding hole 11 is tangent to one side surface of the transmission groove 10; as shown in fig. 6, a third trapezoidal sliding groove 12 is formed in the side surface of the transmission groove 10, which is tangent to the second square sliding hole 11, and one end of the third trapezoidal sliding groove 12 is communicated with the second square sliding hole 11; one end of the third trapezoidal sliding chute 12 communicated with the second square sliding hole 11 penetrates through the side end face of the lamp cover 9 provided with the second square sliding hole 11; a fourth trapezoidal sliding groove 62 is formed in the side surface, opposite to the side surface on which the third trapezoidal sliding groove 12 is formed, of the transmission groove 10; as shown in fig. 9, the lamp cover 9 is fixedly connected with the side end surface of the transmission housing 3, which is provided with the engaging square hole 6, through the side end surface on which the second square slide hole 11 is formed; as shown in fig. 13, the second square slide hole 11 is butted against the first square slide hole 7; the third trapezoidal sliding groove 12 is butted with the second trapezoidal sliding groove 8; the dust removal strip mechanism 15 is arranged in the transmission groove 10 of the lamp cover 9; as shown in fig. 8, the telescopic column 29 is located in the driving groove 10; one end of the telescopic column 29 is connected with the side surface of the transmission groove 10 with the second square sliding hole 11, and the other end is connected with the dedusting strip mechanism 15; the second return spring 30 is wound on the outer side of the telescopic column 29; as shown in fig. 9, one end of the second return spring 30 is connected with the inner wall of the transmission groove 10, and the other end is connected with the dedusting strip mechanism 15; as shown in fig. 7, a wave rack 14 is installed at the lower end of one side surface of the inner wall of the lamp housing 13; as shown in fig. 8 and 13, the lamp cover 13 is mounted on the lower end surface of the lamp cover 9; as shown in fig. 11, the lamp housing 13 is fitted with a dust removal strip mechanism 15; the wavy rack 14 is matched with the dedusting strip mechanism 15; the bulb 32 is located in the housing 13.

As shown in fig. 31, the centrifugal wheel mechanism 61 includes a centrifugal wheel 54, a limiting groove 55, a transmission shaft hole 56, a gear block 57, and a limiting spring 58, wherein as shown in fig. 33, a plurality of limiting grooves 55 are uniformly formed on an outer circumferential surface of the centrifugal wheel 54 in a circumferential direction; a through transmission shaft hole 56 is formed between two end surfaces of the centrifugal wheel 54; as shown in fig. 32, each of the stopper grooves 55 has a tooth block 57 and a stopper spring 58 mounted therein; one end of a limiting spring 58 is connected with the inner wall of the limiting groove 55, and the other end of the limiting spring is connected with the end face of the tooth block 57; as shown in fig. 18, the centrifugal wheel 54 is mounted on the transmission shaft 52 through the key fit of the transmission shaft hole 56 and the outer circumferential surface of the transmission shaft 52; a toothed block 57 mounted in a plurality of retaining grooves 55 cooperates with the first toothed rack 47.

As shown in fig. 15 and 16, the dust removing bar mechanism 15 includes a joint bar 16, a joint block 17, a trapezoidal slider 18, a second rack bar 19, a second trapezoidal slide bar 20, a second telescopic jacket 21, a second telescopic inner bar 22, a second telescopic spring 23, a pressing block 24, a T-shaped chute 25, a T-shaped slider 26, a third return spring 27, and a dust removing bar 28, wherein as shown in fig. 16, the second trapezoidal slide bar 20 is mounted on a side end surface of the second rack bar 19; as shown in fig. 11, the second rack 19 is mounted on the inner wall of the lamp cover 9 through the sliding fit of the second trapezoidal slide bar 20 with the third trapezoidal sliding groove 12 and the second trapezoidal sliding groove 8; as shown in fig. 13, one end of the second rack 19 sequentially passes through the second square slide hole 11 and the first square slide hole 7 to enter the transmission cavity 4; one end of the second rack 19 entering the transmission cavity 4 is matched with the incomplete gear 33; as shown in fig. 16, trapezoidal sliders 18 are mounted on the side end surfaces of the engagement blocks 17; as shown in fig. 9, the engaging block 17 is mounted on the inner wall of the lamp cover 9 by the sliding fit of the trapezoidal sliding block 18 and the fourth trapezoidal sliding groove 62; as shown in fig. 15, the engagement block 17 is connected to the second rack 19 by the engagement rod 16; as shown in fig. 13, one side end face of the adapter rod 16 is fixedly connected to the telescopic column 29; as shown in fig. 16, two second telescopic outer sleeves 21 are symmetrically installed on the lower end surfaces of both ends of the connecting rod 16, and the mouths of the two second telescopic outer sleeves 21 are downward; the two second telescopic inner rods 22 are respectively inserted into the two second telescopic outer sleeves 21 through respective one ends; the two second telescopic springs 23 are respectively positioned in the two second telescopic outer sleeves 21; one end of the second telescopic spring 23 is connected with the inner wall of the second telescopic outer sleeve 21, and the other end is connected with the end face of the second telescopic inner rod 22; as shown in fig. 20, a T-shaped sliding groove 25 is formed on the lower end surface of the pressing block 24; as shown in fig. 16, the pressing block 24 is fixedly connected with the end surfaces of the two second telescopic inner rods 22 through the upper end surface thereof; the upper end surface of the dust removing strip 28 is provided with a T-shaped sliding block 26; as shown in fig. 21, the dust removing strip 28 is mounted on the lower end surface of the pressing block 24 through the sliding fit of the T-shaped sliding block 26 and the T-shaped sliding groove 25; as shown in fig. 16, the third return spring 27 is located in the T-shaped chute 25; one end of a third return spring 27 is connected with the inner wall of the T-shaped sliding groove 25, and the other end is connected with the T-shaped sliding block 26; as shown in fig. 8, the lower end surface of the dust removing strip 28 is in contact fit with the bottom of the inner wall of the lampshade 13; as shown in fig. 13, one end of the dust-removing bar 28 is engaged with the wave-shaped rack 14 installed on the inner wall of the lamp housing 13.

As shown in fig. 4 and 6, the cross-sectional dimension of the second trapezoidal runner 8 is equal to the cross-sectional dimension of the third trapezoidal runner 12.

As shown in fig. 4 and 6, the cross-sectional dimension of the first square slide hole 7 is equal to the cross-sectional dimension of the second square slide hole 11.

As shown in fig. 5, the top surface of the driving groove 10 of the lamp cover 9 has a light reflecting coating.

As shown in fig. 16, the second extension spring 23 is always in a compressed state.

As shown in fig. 18, the transmission ratio of the first bevel gear 53 to the second bevel gear 45 is 1: 4.

as shown in fig. 15, a rubber layer is attached to the bottom of the dust removal strip 28.

As shown in fig. 14, the incomplete gear 33 is located above the second rack 19 in the initial state, and the incomplete gear 33 does not interact with the second rack 19.

As shown in fig. 18, the length of the first rack 47 is greater than the sum of the thickness of the partial gear 33 and the width of the second rack 19.

The dust exhausting fan 59 of the present invention is designed such that when the dust removing stripe 28 inside the lamp housing 13 cleans dust, the dust enters the driving chamber 4 through the coupling hole, and the dust exhausting fan 59 exhausts the dust entering the driving chamber 4 to the outside of the lamp housing 13.

The incomplete gear 33 of the present invention is designed to drive the fan 60 to rotate the centrifugal wheel 54 and the first bevel gear 53 through the transmission shaft 52 when the speed of the wind is relatively low; the first bevel gear 53 drives the incomplete gear 33 to rotate through the second bevel gear 45, the first telescopic outer sleeve 36 and the first telescopic inner rod 34; at this time, due to the action of the limiting spring 58, the centrifugal force generated by the tooth block 57 in the centrifugal wheel 54 is not enough to make the tooth block 57 slide outwards along the limiting groove 55; the centrifugal wheel 54 does not interact with the first rack 47; the first rack 47 cannot slide downwards along the first trapezoidal sliding groove 50; the first rack 47 cannot move downwards without the incomplete gear 33 through the positioning plate 40, the positioning ring 39 and the first telescopic inner rod 34; the incomplete gear 33 does not interact with the second rack 19; when high-speed wind pushes the driving fan 60 to rotate, the driving fan 60 drives the centrifugal wheel 54 and the first bevel gear 53 to synchronously and rapidly rotate through the transmission shaft 52; the tooth block 57 in the limit groove 55 on the centrifugal wheel 54 slides outwards along the limit groove 55 under the action of centrifugal force, and the limit spring 58 is stretched; the centrifugal wheel 54 forms a gear in the rotation process and is meshed with the first rack 47; the rotation of the centrifugal wheel 54 drives the first rack 47 to slide downwards along the first trapezoidal sliding groove 50; the first rack 47 drives the first telescopic inner rod 34 to slide downwards in the first telescopic outer sleeve 36 through the positioning plate 40 and the positioning ring 39; meanwhile, the first bevel gear 53 drives the first telescopic inner rod 34 to rotate through the second bevel gear 45 and the first telescopic outer sleeve 36; the first telescopic inner rod 34 drives the incomplete gear 33 to rotate while moving downwards; the incomplete gear 33 interacts with the second rack 19; the second rack 19 slides along the third trapezoidal sliding groove 12 and the second trapezoidal sliding groove 8; the second rack 19 drives the dust removing strip 28 to slide along the bottom of the lampshade 13 through the connecting rod 16, the second telescopic outer sleeve 21, the second telescopic inner rod 22 and the pressing block 24; the sliding of the dust removing strip 28 scrapes off the dust on the bottom of the inner wall of the lampshade 13; since the gear ratio of the first bevel gear 53 to the second bevel gear 45 is 1: 4, when the centrifugal wheel 54 and the first bevel gear 53 rotate for one circle synchronously, the second bevel gear 45 drives the incomplete gear 33 to rotate for four circles through the telescopic outer sleeve and the first telescopic inner rod 34; because the outer circular surface of the incomplete gear 33 is provided with the teeth with the radian of 270 degrees to 320 degrees, when the incomplete gear 33 rotates for one circle, after the action of the second rack 19 and the teeth on the incomplete gear 33 is finished, the second rack 19 and the incomplete gear 33 do not act, and the second rack 19 instantly returns to the initial position under the action of the second return spring 30; thereby ensuring that the dust removing strips 28 form four times of reciprocating sliding under the action of wind power and realizing the reciprocating four times of cleaning of the lampshade 13 by the dust removing strips 28; when the wind speed gradually slows down, the incomplete gear 33 continues to rotate, and the tooth block 57 in the centrifugal wheel 54 contracts into the limit groove 55 under the action of the limit spring 58; the tooth block 57 releases the restriction on the first rack 47; the first rack 47 moves upward along the first trapezoidal sliding groove 50 under the action of the first return spring 51 to return to the initial position; the first rack 47 drives the incomplete gear 33 to move upwards through the positioning plate 40, the positioning ring 39 and the first telescopic inner rod 34 and interact with the second rack 19; the incomplete gear 33 drives the dedusting strip 28 to slide along the bottom of the lampshade 13 through the second rack 19, the connecting rod 16, the second telescopic outer sleeve 21, the second telescopic inner rod 22 and the pressing block 24; after the dusting strip 28 has slid back and forth four times again under the influence of the incomplete gear 33, the incomplete gear 33 continues to move upwards, out of engagement with the second toothed rack 19 and back to the initial position.

The present invention is designed such that the length of the first rack 47 is greater than the sum of the thickness of the incomplete gear 33 and the width of the second rack 19, so that when the first rack 47 moves to the limit downward, the incomplete gear 33 is disengaged from the second rack 19 and the incomplete gear 33 no longer interacts with the second rack 19.

The design purpose of the wavy rack 14 is that when the dedusting strip 28 slides along the bottom of the inner wall of the lampshade 13, one end of the dedusting strip 28 moves from the trough of the wavy rack 14 to the crest along the tooth edge; the dedusting strip 28 moves along the length direction of the dedusting strip 28 under the action of the teeth of the wavy rack 14; the dedusting strip 28 drives the T-shaped sliding block 26 to slide along the T-shaped sliding groove 25; the third return spring 27 is compressed; when the end of the dust removing strip 28 in contact with the wave rack 14 reaches the wave crest on the wave rack 14, the movement of the dust removing strip 28 stops, and the third return spring 27 is compressed to the shortest extent; the dust removing bar 28 is driven by the second rack 19 to continuously slide along the bottom of the lampshade 13; the end of the dusting strip 28 in contact with the rack 14 begins to move from the crest to the trough of the rack 14; under the action of the third return spring 27, the dedusting strip 28 moves reversely along the length direction; in the process that the second rack 19 drives the dust removing strips 28 to slide along the bottom of the lampshade 13, the dust removing strips 28 repeatedly act on the teeth on the wavy rack 14, and one end, in contact with the wavy rack 14, of the dust removing strips 28 reciprocates between wave crests and wave troughs on the wavy rack 14; thereby realizing that the dedusting strips 28 linearly slide along the bottom of the inner wall of the lampshade 13 and swing left and right; thereby making the inner wall cleaning effect of the lampshade 13 better and more thorough by the dust removing strip 28.

The centrifugal wheel mechanism 61 of the present invention is designed to drive the fan 60 to rotate the centrifugal wheel 54 and the first bevel gear 53 through the transmission shaft 52 when the wind speed is relatively low; the first bevel gear 53 drives the incomplete gear 33 to rotate through the second bevel gear 45, the first telescopic outer sleeve 36 and the first telescopic inner rod 34; at this time, due to the action of the limiting spring 58, the centrifugal force generated by the tooth block 57 in the centrifugal wheel 54 is not enough to make the tooth block 57 slide outwards along the limiting groove 55; the centrifugal wheel 54 does not interact with the first rack 47; the first rack 47 cannot slide downwards along the first trapezoidal sliding groove 50; the first rack 47 cannot move downwards without the incomplete gear 33 through the positioning plate 40, the positioning ring 39 and the first telescopic inner rod 34; the incomplete gear 33 does not interact with the second rack 19; the second rack 19 cannot slide along the second trapezoidal sliding groove 8 and the third trapezoidal sliding groove 12; the engagement rod 16 connected to the second rack 19 does not move; the dust removal strip 28 connected with the connecting rod 16 through the second telescopic outer sleeve 21, the second telescopic inner rod 22 and the pressing block 24 does not move; the dust removal strips 28 do not play a role in removing dust; when high-speed wind pushes the driving fan 60 to rotate, the driving fan 60 drives the centrifugal wheel 54 and the first bevel gear 53 to synchronously and rapidly rotate through the transmission shaft 52; the tooth block 57 in the limit groove 55 on the centrifugal wheel 54 slides outwards along the limit groove 55 under the action of centrifugal force, and the limit spring 58 is stretched; the centrifugal wheel 54 forms a gear in the rotation process and is meshed with the first rack 47; the rotation of the centrifugal wheel 54 drives the first rack 47 to slide downwards along the first trapezoidal sliding groove 50; the first rack 47 drives the first telescopic inner rod 34 to slide downwards in the first telescopic outer sleeve 36 through the positioning plate 40 and the positioning ring 39; meanwhile, the first bevel gear 53 drives the first telescopic inner rod 34 to rotate through the second bevel gear 45 and the first telescopic outer sleeve 36; the first telescopic inner rod 34 drives the incomplete gear 33 to rotate while moving downwards; the incomplete gear 33 interacts with the second rack 19; the second rack 19 slides along the third trapezoidal sliding groove 12 and the second trapezoidal sliding groove 8; the second rack 19 drives the dust removing strip 28 to slide along the bottom of the lampshade 13 through the connecting rod 16, the second telescopic outer sleeve 21, the second telescopic inner rod 22 and the pressing block 24; the sliding of the dust removing strip 28 scrapes off the dust on the bottom of the inner wall of the lampshade 13; meanwhile, one end of the dust removing strip 28 acts on the wavy rack 14, and the wavy rack 14 and the third return spring 27 enable the dust removing strip 28 to linearly slide along the bottom of the lampshade 13 and simultaneously swing left and right; the dust removing strips 28 can clean the dust in the lampshade 13 more thoroughly, so that the purpose of removing the dust better is achieved; because the outer circular surface of the incomplete gear 33 is provided with the teeth with the radian of 270 degrees to 320 degrees, when the incomplete gear 33 rotates for one circle, after the action of the second rack 19 and the teeth on the incomplete gear 33 is finished, the second rack 19 and the incomplete gear 33 do not act, and the second rack 19 instantly returns to the initial position under the action of the second return spring 30; in the process of resetting the dust removing strip 28, under the combined action of the second reset spring 30 and the wavy rack 14, the dust removing strip 28 linearly slides along the bottom of the lampshade 13 and swings left and right; therefore, secondary cleaning of the lampshade 13 in the resetting process of the dust removing strip 28 is realized; when the centrifugal wheel 54 drives the first rack 47 to move downwards to the extreme position, the first return spring 51 is stretched to the extreme position, the whole second rack 19 passes through the centrifugal wheel 54 and is not acted with the centrifugal wheel 54 any more, and the second rack 19 does not move downwards any more; at this time, the centrifugal wheel 54 rotates exactly one turn, the incomplete gear 33 is separated from the second rack 19 and no interaction occurs, the second rack 19 and the dedusting strip 28 finally return to the initial position under the action of the second return spring 30, the dedusting strip 28 no longer slides back and forth along the bottom of the inner wall of the lampshade 13, and the dedusting process is finished; since the gear ratio of the first bevel gear 53 to the second bevel gear 45 is 1: 4, when the centrifugal wheel 54 and the first bevel gear 53 rotate for one circle synchronously, the second bevel gear 45 drives the incomplete gear 33 to rotate for four circles through the telescopic outer sleeve and the first telescopic inner rod 34; thereby ensuring that the dust removing strips 28 form four times of reciprocating sliding under the action of wind power and realizing the reciprocating four times of cleaning of the lampshade 13 by the dust removing strips 28; when the wind speed gradually slows down, the incomplete gear 33 continues to rotate, and the tooth block 57 in the centrifugal wheel 54 contracts into the limit groove 55 under the action of the limit spring 58; the tooth block 57 releases the restriction on the first rack 47; the first rack 47 moves upward along the first trapezoidal sliding groove 50 under the action of the first return spring 51 to return to the initial position; the first rack 47 drives the incomplete gear 33 to move upwards through the positioning plate 40, the positioning ring 39 and the first telescopic inner rod 34 and interact with the second rack 19; the incomplete gear 33 drives the dedusting strip 28 to slide along the bottom of the lampshade 13 through the second rack 19, the connecting rod 16, the second telescopic outer sleeve 21, the second telescopic inner rod 22 and the pressing block 24; the dedusting strips 28 swing left and right under the action of the wavy rack 14; when the dust removing strip 28 slides back and forth four times under the action of the incomplete gear 33, the incomplete gear 33 is separated from the second rack 19; the dusting strip 28 finally returns to the initial position under the action of the second return spring 30; the dust carried by the dust removing strip 28 in the lampshade 13 is discharged out of the lampshade 13 by the dust discharge fan 59 through the connecting hole; until the wind gradually slows down and stops; the fan 60 is driven to stop rotating; the centrifugal wheel 54, the first bevel gear 53, the second bevel gear 45 and the incomplete gear 33 stop rotating.

The specific implementation mode is as follows: when the speed of the wind is relatively small, the fan 60 is driven to drive the centrifugal wheel 54 and the first bevel gear 53 to rotate through the transmission shaft 52; the first bevel gear 53 drives the incomplete gear 33 to rotate through the second bevel gear 45, the first telescopic outer sleeve 36 and the first telescopic inner rod 34; at this time, due to the action of the limiting spring 58, the centrifugal force generated by the tooth block 57 in the centrifugal wheel 54 is not enough to make the tooth block 57 slide outwards along the limiting groove 55; the centrifugal wheel 54 does not interact with the first rack 47; the first rack 47 cannot slide downwards along the first trapezoidal sliding groove 50; the first rack 47 cannot move downwards without the incomplete gear 33 through the positioning plate 40, the positioning ring 39 and the first telescopic inner rod 34; the incomplete gear 33 does not interact with the second rack 19; the second rack 19 cannot slide along the second trapezoidal sliding groove 8 and the third trapezoidal sliding groove 12; the engagement rod 16 connected to the second rack 19 does not move; the dust removal strip 28 connected with the connecting rod 16 through the second telescopic outer sleeve 21, the second telescopic inner rod 22 and the pressing block 24 does not move; the dusting strips 28 do not function as a dusting.

When high-speed wind pushes the driving fan 60 to rotate, the driving fan 60 drives the centrifugal wheel 54 and the first bevel gear 53 to synchronously and rapidly rotate through the transmission shaft 52; the tooth block 57 in the limit groove 55 on the centrifugal wheel 54 slides outwards along the limit groove 55 under the action of centrifugal force, and the limit spring 58 is stretched; the centrifugal wheel 54 forms a gear in the rotation process and is meshed with the first rack 47; the rotation of the centrifugal wheel 54 drives the first rack 47 to slide downwards along the first trapezoidal sliding groove 50; the first rack 47 drives the first telescopic inner rod 34 to slide downwards in the first telescopic outer sleeve 36 through the positioning plate 40 and the positioning ring 39; meanwhile, the first bevel gear 53 drives the first telescopic inner rod 34 to rotate through the second bevel gear 45 and the first telescopic outer sleeve 36; the first telescopic inner rod 34 drives the incomplete gear 33 to rotate while moving downwards; the incomplete gear 33 interacts with the second rack 19; the second rack 19 slides along the third trapezoidal sliding groove 12 and the second trapezoidal sliding groove 8; the second rack 19 drives the dust removing strip 28 to slide along the bottom of the lampshade 13 through the connecting rod 16, the second telescopic outer sleeve 21, the second telescopic inner rod 22 and the pressing block 24; the sliding of the dust removing strip 28 scrapes off the dust on the bottom of the inner wall of the lampshade 13; meanwhile, one end of the dust removing strip 28 acts on the wavy rack 14, and the wavy rack 14 and the third return spring 27 enable the dust removing strip 28 to linearly slide along the bottom of the lampshade 13 and simultaneously swing left and right; the dust removing strips 28 can clean the dust in the lampshade 13 more thoroughly, so that the purpose of removing the dust better is achieved; because the outer circular surface of the incomplete gear 33 is provided with the teeth with the radian of 270 degrees to 320 degrees, when the incomplete gear 33 rotates for one circle, after the action of the second rack 19 and the teeth on the incomplete gear 33 is finished, the second rack 19 and the incomplete gear 33 do not act, and the second rack 19 instantly returns to the initial position under the action of the second return spring 30; in the process of resetting the dust removing strip 28, under the combined action of the second reset spring 30 and the wavy rack 14, the dust removing strip 28 linearly slides along the bottom of the lampshade 13 and swings left and right; therefore, secondary cleaning of the lampshade 13 in the resetting process of the dust removing strip 28 is realized; when the centrifugal wheel 54 drives the first rack 47 to move downwards to the extreme position, the first return spring 51 is stretched to the extreme position, the whole second rack 19 passes through the centrifugal wheel 54 and is not acted with the centrifugal wheel 54 any more, and the second rack 19 does not move downwards any more; at this time, the centrifugal wheel 54 rotates exactly one turn, the incomplete gear 33 is separated from the second rack 19 and no interaction occurs, the second rack 19 and the dedusting strip 28 finally return to the initial position under the action of the second return spring 30, the dedusting strip 28 no longer slides back and forth along the bottom of the inner wall of the lampshade 13, and the dedusting process is finished; since the gear ratio of the first bevel gear 53 to the second bevel gear 45 is 1: 4, when the centrifugal wheel 54 and the first bevel gear 53 rotate for one circle synchronously, the second bevel gear 45 drives the incomplete gear 33 to rotate for four circles through the telescopic outer sleeve and the first telescopic inner rod 34; thereby ensuring that the dust removing strips 28 form four times of reciprocating sliding under the action of wind force; the dust removing strips 28 stop moving back to the initial position after cleaning the lampshade 13 for four times in a short time, so that the influence of the reciprocating motion of the dust removing strips 28 on the street lamp light is avoided, and the lighting effect of the street lamp is not influenced.

When the wind speed gradually slows down, the incomplete gear 33 continues to rotate, and the tooth block 57 in the centrifugal wheel 54 contracts into the limit groove 55 under the action of the limit spring 58; the tooth block 57 releases the restriction on the first rack 47; the first rack 47 moves upward along the first trapezoidal sliding groove 50 under the action of the first return spring 51 to return to the initial position; the first rack 47 drives the incomplete gear 33 to move upwards through the positioning plate 40, the positioning ring 39 and the first telescopic inner rod 34 and interact with the second rack 19; the incomplete gear 33 drives the dedusting strip 28 to slide along the bottom of the lampshade 13 through the second rack 19, the connecting rod 16, the second telescopic outer sleeve 21, the second telescopic inner rod 22 and the pressing block 24; the dedusting strips 28 swing left and right under the action of the wavy rack 14; when the dust removing strip 28 slides back and forth four times under the action of the incomplete gear 33, the incomplete gear 33 is separated from the second rack 19; the dusting strip 28 finally returns to the initial position under the action of the second return spring 30; the dust carried by the dust removing strip 28 in the lampshade 13 is discharged out of the lampshade 13 by the dust discharge fan 59 through the connecting hole; until the wind gradually slows down and stops; the fan 60 is driven to stop rotating; the centrifugal wheel 54, the first bevel gear 53, the second bevel gear 45 and the incomplete gear 33 stop rotating; the lamp shade 13 is cleaned again, so that the lighting effect of the street lamp is better.

In conclusion, the invention has the beneficial effects that: the street lamp realizes automatic dust removal by utilizing wind energy, and the maintenance cost of the street lamp is greatly reduced; workers do not need to climb to the top of the lamp post 1 for maintenance, and the danger possibly caused by ascending of maintenance personnel is avoided; the centrifugal wheel 54 can identify the wind speed, if the wind speed is low, the centrifugal wheel 54 does not interact with the first rack 47, the dust removing strip 28 does not move, and the dust removing strip 28 does not play a dust removing role; if the wind speed is high, the centrifugal wheel 54 interacts with the first rack 47, so that the dust removing strip 28 reciprocates four times in the lampshade 13 to clean the inner wall of the lampshade 13; when the wind speed is reduced, the dust removing strip 28 carries out one-time reciprocating cleaning on the lampshade 13 again in the process of resetting the incomplete gear 33, so that the dust removing effect of the lampshade 13 is better; the dedusting strips 28 are driven by the second rack 19 to slide along the bottom of the inner wall of the lampshade 13 and swing left and right at the same time, so that more stubborn dust in the lampshade 13 is cleaned, the dedusting effect in the lampshade 13 meets the dedusting requirement to the maximum extent, and the using effect of the lampshade 13 after dedusting is better.

Claims (9)

1. The utility model provides a can clear away street lamp of inner wall dust which characterized in that: the street lamp comprises a lamp post and a street lamp mechanism, wherein the street lamp mechanism is arranged on the top of the lamp post;

the street lamp mechanism comprises a transmission shell, a transmission cavity, a dust exhaust hole, a linking square hole, a first square sliding hole, a second trapezoid sliding groove, a lamp cover, a transmission groove, a second square sliding hole, a third trapezoid sliding groove, a fourth trapezoid sliding groove, a lamp shade, a wave rack, a centrifugal wheel mechanism, a dust removal strip mechanism, a telescopic column, a second reset spring, a lamp holder, a lamp bulb, an incomplete gear, a first telescopic inner rod, a flat key, a first telescopic outer sleeve, a key groove, a first telescopic spring, a positioning ring, a positioning plate, a ring groove, a rod hole, a fixing block, a fixing hole, a second bevel gear, a supporting plate, a first rack, a first trapezoid sliding strip, a rack sliding rail, a first trapezoid sliding groove, a first reset spring, a transmission shaft, a first bevel gear, a dust exhaust fan and a driving fan, wherein the transmission cavity is formed in the transmission; one side end face of the transmission shell is provided with a dust exhaust hole which is communicated with the transmission cavity; the lower end of the side end face adjacent to the side end face provided with the dust exhaust hole on the transmission shell is provided with a connecting square hole which is communicated with the transmission cavity; a through first square sliding hole is formed between the side end face of the transmission shell provided with the connecting square hole and the side end face opposite to the side end face, and the first square sliding hole is tangent to the inner wall of the transmission cavity; a second trapezoidal sliding groove is formed in the side face, tangent to the first square sliding hole, of the transmission cavity, and two ends of the second trapezoidal sliding groove are communicated with the first square sliding hole; the second trapezoidal sliding chute penetrates through two side end faces of the transmission shell, wherein the first square sliding hole is formed in the transmission shell; the transmission shell is arranged at the top end of the lamp post through the lower end surface of the transmission shell; the centrifugal wheel mechanism and the first bevel gear are arranged in a transmission cavity of the transmission shell through a transmission shaft; the center of the dust exhaust fan is provided with a shaft hole; the dust exhaust fan is arranged on the transmission shaft in a matching way through a key between the shaft hole on the dust exhaust fan and the transmission shaft, and the dust exhaust fan is embedded into the dust exhaust hole through the outer circular surface of the dust exhaust fan; one end of the transmission shaft is matched with the bearing on the inner wall of the transmission cavity, and the other end of the transmission shaft penetrates through the shaft hole on the dust exhaust fan and extends out of the transmission shell; the center of the driving fan is provided with a shaft hole; the driving fan is arranged on one end of the transmission shaft extending out of the transmission shell in a matching way through a key between the shaft hole on the driving fan and the transmission shaft; the first bevel gear is in key fit with the transmission shaft;

a first trapezoidal sliding groove is formed in one side end face of the rack sliding rail; the rack sliding rail is fixedly arranged in the transmission cavity through the upper end surface of the rack sliding rail; a first rack is arranged on one side end face of the supporting plate; a first trapezoidal sliding strip is arranged on the side end face, opposite to the side end face provided with the first rack, of the supporting plate; the supporting plate is arranged on the rack sliding rail through the sliding fit of the first trapezoidal sliding strip and the first trapezoidal sliding groove; the first rack is matched with the centrifugal wheel mechanism; the first reset spring is positioned in the first trapezoidal sliding groove, and two ends of the first reset spring are respectively connected with the inner wall of the transmission cavity and the upper end face of the supporting plate; a through fixing hole is formed between the upper end surface and the lower end surface of the fixing block; the fixed block is fixedly arranged on the inner wall of the transmission cavity through one side end face on the fixed block, and the fixed block is positioned below the first bevel gear; two key grooves are uniformly formed in the circumferential direction of the inner circular surface of the first telescopic outer sleeve; the first telescopic outer sleeve is embedded into the fixing hole through the outer circular surface of the first telescopic outer sleeve, and the sleeve opening of the first telescopic outer sleeve is downward; the outer circle surface of the first telescopic outer sleeve is matched with the inner circle surface of the fixing hole through a bearing; two flat keys are uniformly arranged on the outer circular surface of the first telescopic inner rod in the circumferential direction; one end of the first telescopic inner rod is arranged in the first telescopic outer sleeve in a sliding fit manner through the flat key and the key groove; the first telescopic spring is positioned in the first telescopic outer sleeve; one end of the first telescopic spring is connected with the end face of the first telescopic inner rod, and the other end of the first telescopic spring is connected with the inner wall of the first telescopic outer sleeve; the second bevel gear is arranged at the upper end of the first telescopic outer sleeve and meshed with the first bevel gear; a through rod hole is formed between the upper end surface and the lower end surface of the positioning plate; the inner circle surface of the rod hole is provided with a ring groove along the circumferential direction; the positioning ring is embedded into the ring groove; the lower end of the first telescopic inner rod penetrates through the rod hole from top to bottom; the outer circular surface of the first telescopic inner rod is fixedly connected with the inner circular surface of the positioning ring; the positioning plate is fixedly connected with the lower end surface of the supporting plate through the upper end surface of one end of the positioning plate; the outer circular surface of the incomplete gear is provided with teeth with radian of 270-320 degrees; the incomplete gear is arranged at the lower end of the first telescopic inner rod; the lamp holder is arranged at the bottom of the transmission cavity; the bulb is arranged on the lamp holder, and one end of the bulb penetrates through the connecting square hole in the transmission cavity;

the lower end surface of the lamp cover is provided with a transmission groove; a second square sliding hole is formed in one side face of the transmission groove, and one side face of the second square sliding hole is tangent to one side face of the transmission groove; a third trapezoidal sliding groove is formed in the side face, tangent to the second square sliding hole, in the transmission groove, and one end of the third trapezoidal sliding groove is communicated with the second square sliding hole; one end of the third trapezoidal sliding chute, which is communicated with the second square sliding hole, penetrates through the side end face of the lamp cover, which is provided with the second square sliding hole; a fourth trapezoidal sliding groove is formed in the side face, opposite to the side face on which the third trapezoidal sliding groove is formed, of the transmission groove; the lamp cover is fixedly connected with the side end face of the transmission shell, which is provided with the connecting square hole, through the side end face of the second square sliding hole; the second square sliding hole is in butt joint with the first square sliding hole; the third trapezoidal sliding groove is in butt joint with the second trapezoidal sliding groove; the dust removing strip mechanism is arranged in a transmission groove of the lamp cover; the telescopic column is positioned in the transmission groove; one end of the telescopic column is connected with the side surface of the transmission groove, which is provided with the second square sliding hole, and the other end of the telescopic column is connected with the dedusting strip mechanism; the second return spring is wound on the outer side of the telescopic column; one end of the second return spring is connected with the inner wall of the transmission groove, and the other end of the second return spring is connected with the dedusting strip mechanism; the lower end of one side surface of the inner wall of the lampshade is provided with a wave rack; the lampshade is arranged on the lower end surface of the lamp cover; the lampshade is matched with the dedusting strip mechanism; the wavy rack is matched with the dedusting strip mechanism; the bulb is positioned in the lampshade;

the centrifugal wheel mechanism comprises a centrifugal wheel, a limiting groove, a transmission shaft hole, a gear block and a limiting spring, wherein a plurality of limiting grooves are uniformly formed in the circumferential direction of the outer circular surface of the centrifugal wheel; a through transmission shaft hole is formed between the two end faces of the centrifugal wheel; each limiting groove is internally provided with a tooth block and a limiting spring; one end of the limiting spring is connected with the inner wall of the limiting groove, and the other end of the limiting spring is connected with the end face of the tooth block; the centrifugal wheel is arranged on the transmission shaft in a matched manner through the transmission shaft hole and the key of the outer circular surface of the transmission shaft; the tooth blocks arranged in the limit grooves are matched with the first racks;

the dust removing strip mechanism comprises a joint rod, a joint block, a trapezoidal sliding block, a second rack, a second trapezoidal sliding strip, a second telescopic outer sleeve, a second telescopic inner rod, a second telescopic spring, a pressing block, a T-shaped sliding groove, a T-shaped sliding block, a third return spring and a dust removing strip, wherein the second trapezoidal sliding strip is arranged on the side end face of the second rack; the second rack is arranged on the inner wall of the lamp cover in a sliding fit manner through the second trapezoidal sliding strip, the third trapezoidal sliding groove and the second trapezoidal sliding groove; one end of the second rack sequentially passes through the second square sliding hole and the first square sliding hole to enter the transmission cavity; one end of the second rack entering the transmission cavity is matched with the incomplete gear; a trapezoidal sliding block is arranged on the side end face of the connecting block; the connecting block is arranged on the inner wall of the lamp cover through the sliding fit of the trapezoidal sliding block and the fourth trapezoidal sliding groove; the joint block is connected with the second rack through a joint rod; one side end face of the connecting rod is fixedly connected with the telescopic column; two second telescopic outer sleeves are symmetrically arranged on the lower end surfaces of two ends of the connecting rod, and sleeve openings of the two second telescopic outer sleeves are downward; the two second telescopic inner rods are respectively inserted into the two second telescopic outer sleeves through respective one ends; the two second telescopic springs are respectively positioned in the two second telescopic outer sleeves; one end of the second telescopic spring is connected with the inner wall of the second telescopic outer sleeve, and the other end of the second telescopic spring is connected with the end face of the second telescopic inner rod; the lower end surface of the pressing block is provided with a T-shaped sliding chute; the pressing block is fixedly connected with the end surfaces of the two second telescopic inner rods through the upper end surface of the pressing block; the upper end surface of the dust removing strip is provided with a T-shaped sliding block; the dedusting strip is arranged on the lower end surface of the pressing block through the sliding fit of the T-shaped sliding block and the T-shaped sliding groove; the third return spring is positioned in the T-shaped sliding groove; one end of the third return spring is connected with the inner wall of the T-shaped sliding groove, and the other end of the third return spring is connected with the T-shaped sliding block; the lower end surface of the dust removing strip is in contact fit with the bottom of the inner wall of the lampshade; one end of the dust removing strip is matched with the wavy rack arranged on the inner wall of the lampshade.

2. The street lamp capable of removing dust on the inner wall as claimed in claim 1, wherein: the cross-sectional dimension of the second trapezoidal sliding groove is equal to that of the third trapezoidal sliding groove.

3. The street lamp capable of removing dust on the inner wall as claimed in claim 1, wherein: the cross section size of the first square sliding hole is equal to that of the second square sliding hole.

4. The street lamp capable of removing dust on the inner wall as claimed in claim 1, wherein: the top surface of the transmission groove of the lamp cover is provided with a reflective coating.

5. The street lamp capable of removing dust on the inner wall as claimed in claim 1, wherein: the second extension spring is always in a compressed state.

6. The street lamp capable of removing dust on the inner wall as claimed in claim 1, wherein: the transmission ratio of the first bevel gear to the second bevel gear is 1: 4.

7. the street lamp capable of removing dust on the inner wall as claimed in claim 1, wherein: the bottom of the dust removal strip is provided with a rubber layer.

8. The street lamp capable of removing dust on the inner wall as claimed in claim 1, wherein: the incomplete gear is located above the second rack in an initial state, and the incomplete gear does not interact with the second rack.

9. The street lamp capable of removing dust on the inner wall as claimed in claim 1, wherein: the length of the first rack is larger than the sum of the thickness of the incomplete gear and the width of the second rack.

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