CN112275676A - Surface self-cleaning method for wireless intelligent communication equipment - Google Patents

Abstract

The invention discloses a surface self-cleaning method of wireless intelligent communication equipment, which relates to the technical field of intelligent wireless communication equipment and comprises the following steps: s1, motor rotation: when the wireless communication equipment needs cleaning, the micro motor rotates by sending a signal to the micro motor; s2, rotation of the self-cleaning assembly: in the step S1, the micro motor rotates to drive the transmission chain to circularly move on the surface of the object to be cleaned; s3, shoveling and brushing: the surface of the object to be cleaned is firstly shoveled and then brushed by the self-cleaning assembly which rotates circularly in the step S2, and the dirt adhered to the surface of the object to be cleaned is firstly shoveled; the invention utilizes the rolling wheel to push, so that the hard brush on the self-cleaning component also performs reciprocating sliding back and forth in the process of moving downwards on the surface of the lens body, and the hard brush can brush the surface of the lens body in a left-right reciprocating manner when refreshing the surface of the lens body, thereby improving the brushing efficiency on the surface of the lens body and improving the effectiveness of decontamination.

Description

Surface self-cleaning method for wireless intelligent communication equipment

Technical Field

The invention relates to the technical field of intelligent wireless communication equipment, in particular to a surface self-cleaning method of wireless intelligent communication equipment.

Background

The communication equipment, ICD for short, is used for wired communication equipment and wireless communication equipment in industrial control environment, and the wireless communication equipment mainly comprises electronic equipment such as a wireless AP, a wireless bridge, a wireless network card, a wireless lightning arrester, a wireless camera, an antenna, a mobile phone, a computer and the like.

The wireless camera is a camera shooting and transmitting system integrated machine for professional dark visit recording, has long service life and simple installation, and is provided with a 12V direct current transformer. Can be divided into 2.4G 5.8G wireless camera and wifi wireless on-vehicle camera etc. wireless camera output ordinary PAL TV system signal, built-in electronic automatic photosensitive device provides automatic light compensation function, and power consumption is very little, prevents that the image is fuzzy and the phenomenon of trailing.

In the prior art, a wireless camera is installed outside, the surface of a lens body of a photosensitive element is exposed outside and is easily influenced by air, so that the surface of the lens body is dirty, the photosensitive effect of the photosensitive element in the lens body is influenced, and therefore the lens body of the camera needs to be cleaned regularly, and patent number CN202010371912.5 discloses a camera cleaning method, which comprises a monitoring rod upright rod, wherein a control box is fixedly installed on the left side of the monitoring rod upright rod, a water storage tank is fixedly installed in the control box, a water filling port is installed at the bottom of the control box in a penetrating manner, the camera cleaning method is characterized in that when the surface of the camera needs to be cleaned, a control plate starts a motor to rotate clockwise, the motor rotates to drive a gear to rotate, the gear drives a rack push rod to move leftwards, the rack push rod drives an accelerating spring to compress leftwards, when a toothless end of the gear is in contact, accelerating spring moves fast right, and rack push rod moves fast right under accelerating spring's drive, and the air in the pressure boost storehouse is compressed into highly-compressed air, and the cooperation of rethread pumping hose is used, and the shower nozzle will form high-pressure water and annotate the blowout to but reach remote control washing assembly start-up and wash the camera.

The camera washing disclosed by the patent still has some defects in actual construction, and the specific defects are as follows:

the camera is hung in a high-altitude position for a long time, the surface of the lens body is easily polluted gradually under the influence of the surrounding environment, if bird droppings are adhered to the surface of the lens body, the bird droppings are sprayed out through high-pressure water liquid disclosed by the patent, the surface of the lens body is washed, the bird droppings adhered to the surface of the lens body are difficult to clean, and the working performance of a photosensitive element inside the lens body is influenced.

Disclosure of Invention

The invention aims to provide a surface self-cleaning method of wireless intelligent communication equipment, aiming at solving the technical problems that the surface of a lens body is gradually polluted due to the fact that a camera is hung in a high-altitude position for a long time, and is easily influenced by the surrounding environment, for example, bird droppings are adhered to the surface of the lens body, the surface of the lens body is washed by spraying high-pressure water liquid disclosed by the patent, the bird droppings adhered to the surface of the lens body are difficult to clean, and the working performance of a photosensitive element in the lens body is influenced.

The technical problem to be solved by the invention is realized by adopting the following technical scheme: a self-cleaning method for the surface of wireless intelligent communication equipment comprises the following steps:

s1, motor rotation: when the wireless communication equipment needs cleaning, the micro motor rotates by sending a signal to the micro motor;

s2, rotation of the self-cleaning assembly: in the step S1, the micro motor rotates to drive the transmission chain to circularly move on the surface of the object to be cleaned;

s3, shoveling and brushing: the surface of the object to be cleaned is firstly removed and then cleaned by the self-cleaning assembly which rotates circularly in the step S2, the dirt adhered to the surface of the object to be cleaned is firstly removed, and then the surface of the object to be cleaned is cleaned by cleaning;

s4, wiping with water: performing water wiping and wiping on the surface of the object to be cleaned, which is firstly shoveled and then cleaned in the step S3, performing water wiping on the surface of the object to be cleaned through a self-cleaning assembly, wetting the surface of the object to be cleaned after cleaning with water liquid, and wiping the surface of the object to be cleaned clean to make the surface of the object to be cleaned bright;

s5, hiding and hiding: in the step S4, the self-cleaning component after wiping the surface of the object to be cleaned clean is hidden at the periphery of the surface of the object to be cleaned by circulating rotation, so that the normal operation of the surface of the object to be cleaned is not affected by the self-cleaning component;

the above-mentioned step S1-S5 is accomplished by a wireless intelligent communication device surface self-cleaning device, the wireless intelligent communication device surface self-cleaning device includes a fixed footing fixedly installed on a support, the top end of the fixed footing is installed with an installation locking frame, the installation locking frame is installed with a lens cone, the lens cone is set as a square cylinder structure, the middle part of the right end of the lens cone is provided with a lens cone groove, the right end of the lens cone is far away from the groove edge of the lens cone and is provided with a dust-blocking hood, the right end of the lens cone is located in the middle part of the lens cone groove and is provided with a lens body, the front and back sides of the lens cone groove are symmetrically provided with a plurality of conveying chain wheels arranged in rectangular shape, the front and back sides of the lens cone groove are symmetrically provided with circularly rotating driving chains, the driving chain of each side, the transmission chain on each side is supported by a plurality of conveying chain wheels which are arranged in a rectangular shape to form a square transmission chain, and any one of the conveying chain wheels on each side is provided with a micro motor for driving rotation;

two self-cleaning assemblies are connected between the transmission chains on the two sides, the two self-cleaning assemblies are arranged in the middle of the transmission chains on the two sides at equal intervals, the self-cleaning assemblies are hidden on the upper side and the lower side of the irradiation direction of the lens body, and the self-cleaning assemblies drive the transmission chains to rotate circularly on the two sides of the irradiation direction of the lens body through the micro motor;

the left side and the right side of the inner wall of the lens barrel groove are symmetrically provided with corrugated teeth, the self-cleaning assembly comprises a plurality of sliding hinged plates which are hinged oppositely, a second sliding hinged plate is connected between every two adjacent sliding hinged plates in a rotating mode, every two adjacent sliding hinged plates are connected with the second sliding hinged plates in a rotating mode and can slide oppositely, rolling wheels are symmetrically arranged on the front side and the rear side of each sliding hinged plate and on the front side and the rear side of each second sliding hinged plate, when the sliding hinged plates move to the corrugated teeth, the rolling wheels on the two sides of each second sliding hinged plate are connected with the corrugated teeth in a rolling mode, and hard brushes are arranged on the sliding hinged plates in the direction towards the lens body.

As a preferred technical scheme of the invention, multiple rows of dust scraping teeth are arranged in front of the hard hairbrush at equal intervals, each row of dust scraping teeth comprises a scraping shovel, a scraping shovel bracket, a spring groove and a spring, the spring groove is formed in a second sliding hinged plate in the middle of two adjacent sliding hinged plates, the scraping shovel bracket is arranged in the spring groove of the second sliding hinged plate in a sliding fit manner, the spring is arranged at the top end of the scraping shovel bracket which is arranged in the spring groove in a sliding fit manner, the scraping shovel which is fixed in an inclined manner is arranged at the top end of the scraping shovel bracket, and the front-back length of the scraping shovel is greater than the front-back length of the lens body.

As a preferred technical scheme of the present invention, a first cleaning roller, a second cleaning roller and a wiping sponge are sequentially arranged behind the hard brush at equal intervals, the first cleaning roller is cylindrical, the second cleaning roller is cylindrical, the wiping sponge is blocky, support rods are symmetrically installed at the front and rear ends of the first cleaning roller, the second cleaning roller and the wiping sponge, the support rods at the two sides of the first cleaning roller, the second cleaning roller and the wiping sponge are symmetrically installed in corresponding spring grooves at the two sides, and a spring is embedded in each spring groove;

the outer circle surface of the first cleaning roller is wrapped with cleaning soft glue.

As a preferable technical scheme of the invention, the cleaning roller comprises water-absorbing cotton wool, a water storage tank and water-absorbing cotton sheets, the water-absorbing cotton wool is uniformly wrapped on the outer circumferential surface of the cleaning roller, the water storage tank is fixedly mounted above the cleaning roller, the water-absorbing cotton sheets extend out of the bottom of the water storage tank, the water-absorbing cotton sheets are as long as the cleaning roller, and the water-absorbing cotton sheets are tightly attached to the water-absorbing cotton wool on the outer circumferential surface of the cleaning roller.

As a preferable technical scheme of the present invention, the second cleaning roller includes a scraping blade and a second cleaning soft rubber, the second cleaning soft rubber is uniformly wrapped on the outer circumferential surface of the second cleaning roller, the scraping blade is fixedly installed in a direction facing the advancing direction of the second cleaning roller, and the scraping blade is obliquely fixed in front of the advancing direction of the second cleaning roller.

According to a preferable technical scheme, two sides of the scrap scraping shovel are symmetrically provided with scrap scraping shovel supports which are elastic telescopic rods.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the self-cleaning device for the surface of the wireless intelligent communication equipment is provided with the two self-cleaning assemblies, when the two self-cleaning assemblies do not work, the two self-cleaning assemblies are respectively hidden at the upper side and the lower side of the irradiation direction of the lens body, and the self-cleaning assemblies are parallelly hidden at the upper side and the lower side of the irradiation direction of the lens body, so that the occupied area of the cleaning assemblies in the irradiation direction of the lens body is reduced to the maximum extent, the self-cleaning assemblies do not influence the image pickup work of the lens body, when the surface of the lens body is dirty, the micro motor rotates to drive the self-cleaning assemblies to circularly move on the surface of the lens body, and the self-cleaning assemblies move on the surface of the lens body to scrub, clean and remove dust on the surface of the.

The invention is characterized in that corrugated teeth are symmetrically arranged on the left side and the right side of the inner wall of the lens barrel groove, when the self-cleaning component moves to the corrugated teeth on the two sides of the inner wall of the lens barrel groove, the hard hairbrush on the self-cleaning component can also slide back and forth in a reciprocating manner in the process of moving downwards on the surface of the lens body through the relative sliding between the adjacent sliding hinged plate and the second sliding hinged plate and is pushed by the rolling wheel, so that the hard hairbrush can brush the surface of the lens body in a reciprocating manner from left to right when refreshing the surface of the lens body, the brushing efficiency on the surface of the lens body is improved, and the effectiveness of.

Thirdly, a plurality of rows of dust scraping teeth are arranged in front of the hard brush at equal intervals, each row of dust scraping teeth is provided with a scraping shovel fixed in an inclined mode, the surface of the lens body moves circularly through the self-cleaning assembly, the scraping shovels are used for scraping and removing the surface of the lens body, dirt adhered to the surface of the lens body is scraped through the scraping shovels, the surface of the cleaning body is cleaned through the hard brush, cleaning cleanliness of the surface of the lens body is further improved, in the scraping process, the scraping shovels in two adjacent rows slide back and forth when the dirt on the surface of the lens body is scraped through pushing of the corrugated teeth, the scraping shovels are matched with the scraping shovels to be fixed in an inclined mode, sharpness of the scraping shovels is improved, and efficiency and scraping force of the dirt adhered to the surface of the lens body are improved.

Fourthly, the invention firstly removes the dirt adhered on the surface of the lens body by arranging a first cleaning roller, a second cleaning roller and wiping sponge in sequence at equal intervals behind the hard hairbrush, then cleans the surface of the lens body, then removes the tiny particles adhered on the surface of the lens body by adhering the surface of the lens body after cleaning by the first cleaning roller, wets the surface of the lens body by wiping the surface of the lens body by the cleaning roller, is convenient for wiping the surface of the lens body at the later stage, then adheres the surface of the lens body by the second cleaning roller again, removes the wetted tiny particles, and finally wipes by wiping the sponge to clean the surface of the lens body as new, and the self-cleaning assembly moves from the surface of the lens body once, accomplish the clean process of multichannel, cooperation micro motor's rotation makes self-cleaning assembly remove from lens body surface many times and slide, cleans lens body surface, improves the lens body surface cleanliness factor after the cleaning, improves the clean effect to lens body surface.

And fifthly, the scraping shovel is supported by the spring, so that when the scraping shovel is in contact with the surface of the lens body, the scraping shovel slides according to the surface of the scraping shovel body, the top end of the scraping shovel is in close contact with the surface of the lens body, and the scraping effect of the scraping shovel on dirt adhered to the surface of the lens body is improved through the close contact.

Sixth, the cleaning roller of the invention carries a water storage tank by itself, water is stored in the water storage tank, the water in the water storage tank is sucked out by a water absorption cotton sheet through a siphon characteristic, the water absorption cotton sheet is tightly attached to the water absorption cotton wool on the outer circumferential surface of the cleaning roller, the water is absorbed on the water absorption cotton wool through the siphon characteristic, the cleaning roller rolls along the surface of the lens body, the water absorption cotton wool on the outer circumferential surface of the cleaning roller is extruded through the surface of the lens body, the water is extruded out on the surface of the lens body to moisten the surface of the lens body, a second cleaning roller at the rear part is convenient to adhere and remove the dirt on the surface of the lens body through wetting the surface of the lens body, the particulate matter supported by the surface of the water is shoveled by a scraping shovel, and the particulate matter adhered on the surface of the lens body is adhered by a second cleaning tension soft rubber, finally, the sponge is wiped to effectively improve the cleanliness of the surface of the lens body.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart illustrating the steps of a method for self-cleaning a surface of a wireless intelligent communication device according to the present invention;

FIG. 2 is a schematic diagram of a front view of a wireless intelligent communication device according to the present invention;

FIG. 3 is a schematic left-view structural diagram of a wireless intelligent communication device according to the present invention;

FIG. 4 is a left side view of the sliding hinge plate of the wireless intelligent communication device of the present invention sliding in the lens barrel slot;

FIG. 5 is a front view of the self-cleaning assembly hidden on the top of the lens barrel;

FIG. 6 is an enlarged view of the contact between the dust scraping teeth and the lens body surface according to the present invention;

FIG. 7 is an enlarged view of the first cleaning roller, the second cleaning roller, and the wiping sponge contacting the surface of the lens body according to the present invention;

FIG. 8 is an enlarged view of the water storage tank of the present invention showing the attachment of the absorbent cotton sheet to the absorbent cotton wool on the outer circumferential surface of the cleaning roller;

in the figure: 1. fixing feet, 2, a support frame, 3, a lens barrel, 4, an installation locking frame, 5, a dust blocking tent, 6, a lens barrel groove, 7, a lens body, 8, a conveying chain wheel, 9, a transmission chain, 10, a self-cleaning component, 11, corrugated teeth, 1101, a sliding hinged plate, 102, dust scraping teeth, 1021, a scraping shovel, 1022, a scraping shovel support, 1023, a spring groove, 1024, a spring, 103, a hard brush, 104, a first cleaning roller, 1041, cleaning soft rubber, 105, a rolling wheel, 106, a micro motor, 107, a second sliding hinged plate, 108, a cleaning roller, 1081, water absorption cotton wool, 1082, a water storage tank, 1083, a water absorption cotton wool sheet, 109, a second cleaning roller, 1091, a scrap scraping shovel, 1092, a second cleaning soft rubber, 110 and sponge.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

It will be understood that when an element is referred to as being "secured to" another element, it can be on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and similar expressions are used herein for illustrative purposes only and do not represent the only embodiments.

Example 1

Please refer to fig. 1-8, which are schematic diagrams illustrating an overall structure of a method for self-cleaning a surface of a wireless intelligent communication device;

a self-cleaning method for the surface of wireless intelligent communication equipment comprises the following steps:

s1, motor rotation: when the wireless communication equipment needs cleaning, the sending signal can be manually sent to the micro motor 106 by manpower, and the micro motor 106 rotates by sending the signal to the micro motor 106;

s2, rotation of self-cleaning assembly 10: in step S1, the micro motor 106 rotates to drive the transmission chain 9 to circularly move on the surface of the object to be cleaned, which is the lens body 7 according to the present invention;

s3, shoveling and brushing: the self-cleaning assembly 10 circularly rotating in step S2 is used to firstly remove the dirt adhered to the surface of the object to be cleaned and then to clean the surface of the object to be cleaned;

s4, wiping with water: the object to be cleaned is wiped with water and dried after the object to be cleaned is shoveled and then brushed in step S3, the object to be cleaned is wiped with water by the self-cleaning assembly 10, the object to be cleaned after brushing is wetted by the water, and the object to be cleaned is cleaned to be bright;

s5, hiding and hiding: in step S4, the self-cleaning assembly 10 after wiping the surface of the object to be cleaned is hidden around the surface of the object to be cleaned by circulating rotation, so that the self-cleaning assembly 10 does not affect the normal operation of the surface of the object to be cleaned;

the self-cleaning method for the surface of the wireless intelligent communication equipment described in the above steps S1-S5 is specifically completed by matching a self-cleaning device for the surface of the wireless intelligent communication equipment, the self-cleaning device for the surface of the wireless intelligent communication equipment comprises a fixed footing 1 fixedly installed on a support, an installation locking frame 4 is installed at the top end of the fixed footing 1, a lens barrel 3 is installed on the installation locking frame 4, the lens barrel 3 is set to be a square barrel structure, a lens barrel groove 6 is opened in the middle of the right end of the lens barrel 3, a dust-blocking hood 5 is arranged at the right end of the lens barrel 3, which is positioned at the far side of the lens barrel groove 6, a lens body 7 is arranged at the right end of the lens barrel 3, a plurality of conveying chain wheels 8 which are arranged in a rectangular shape are symmetrically installed at the front side and the rear side of the lens barrel groove 6, circularly rotating driving, the transmission chain 9 on each side is supported by a plurality of conveying chain wheels 8 which are arranged in a rectangular shape to form a square transmission chain, and any one conveying chain wheel 8 on each side is provided with a micro motor 106 for driving rotation;

two self-cleaning assemblies 10 are connected between the transmission chains 9 on the two sides, the two self-cleaning assemblies 10 are arranged in the middle of the transmission chains 9 on the two sides at equal intervals, the self-cleaning assemblies 10 are hidden at the upper side and the lower side of the irradiation direction of the lens body 7, and the self-cleaning assemblies 10 drive the transmission chains 9 to rotate circularly at the two sides of the irradiation direction of the lens body 7 through micro motors 106;

corrugated teeth 11 are symmetrically arranged on the left side and the right side of the inner wall of the lens barrel groove 6, the self-cleaning assembly 10 comprises a plurality of sliding hinged plates 101 which are hinged oppositely, second sliding hinged plates 107 are connected between every two adjacent sliding hinged plates 101 in a rotating mode, the two adjacent sliding hinged plates 101 are connected with the second sliding hinged plates 107 in a rotating mode and can slide oppositely, rolling wheels 105 are symmetrically arranged on the front side and the rear side of each sliding hinged plate 101 and the front side and the rear side of each second sliding hinged plate 107, when the sliding hinged plates 101 move to the positions of the corrugated teeth 11, the rolling wheels 105 on the two sides of the second sliding hinged plates 107 are in rolling connection with the corrugated teeth 11, and hard brushes 103 are arranged on the sliding hinged plates 101 towards.

Specifically, the self-cleaning device for the surface of the wireless intelligent communication equipment is provided with the two self-cleaning assemblies 10, when the two self-cleaning assemblies 10 do not work, the two self-cleaning assemblies 10 are respectively hidden at the upper side and the lower side of the irradiation direction of the lens body 7, and the self-cleaning assemblies 10 are parallelly hidden at the upper side and the lower side of the irradiation direction of the lens body 7, so that the occupied area of the self-cleaning assemblies 10 in the irradiation direction of the lens body 7 is reduced to the maximum extent, the self-cleaning assemblies 10 do not influence the image pickup work of the lens body 7, when the surface of the lens body 7 is dirty, the micro motor 106 rotates to drive the self-cleaning assemblies 10 to circularly move on the surface of the lens body 7, and the self-cleaning assemblies 10 move on the surface of the lens body 7 to scrub, clean and remove dust on the surface of the.

Wherein, the micro motor 106 is a servo motor 106, the servo motor 106 controls the transmission chain 9 to rotate, the self-cleaning component 10 is stopped at the upper and lower sides of the irradiation direction of the lens body 7 after each movement, the self-cleaning component 10 is reduced to the largest extent in the area occupied by the irradiation direction of the lens body 7, the self-cleaning component 10 does not influence the shooting work of the lens body 7,

specifically, the corrugated teeth 11 are symmetrically arranged on the left side and the right side of the inner wall of the groove of the lens barrel 3, when the self-cleaning assembly 10 moves to the corrugated teeth 11 on the two sides of the inner wall of the groove of the lens barrel 3, the hard brush 103 on the self-cleaning assembly 10 also slides back and forth in a reciprocating manner in the process of moving downwards on the surface of the lens body 7 by the relative sliding between the adjacent sliding hinge plate 1101 and the second sliding hinge plate 107 and pushed by the rolling wheel 105, so that the hard brush 103 can brush the surface of the lens body 7 in a reciprocating manner from side to side when the surface of the lens body 7 is refreshed by the hard brush 103, the brushing efficiency on the surface of the lens body.

Multiple rows of dust scraping teeth 102 are arranged in front of the hard brush 103 at equal intervals, each row of dust scraping teeth 102 comprises a scraping blade 1021, scraping blade supports 1022, spring grooves 1023 and springs 1024, the spring grooves 1023 are arranged on the second sliding hinge plates 107 in the middle of the two adjacent sliding hinge plates 101, the scraping blade supports 1022 are installed in the spring grooves 1023 of the second sliding hinge plates 107 in a sliding fit mode, the springs 1024 are installed at the top ends of the scraping blade supports 1022 installed in the spring grooves 1023 in a sliding fit mode, the scraping blades 1021 fixed in an inclined mode are arranged at the top ends of the scraping blade supports 1022, and the front-back length of each scraping blade 1021 is greater than the front-back length of the lens body 7.

Specifically, the scraping blade 1021 of the present invention is supported by the spring 1024, so that when the scraping blade 1021 is in contact with the surface of the lens body 7, the scraping blade 1021 slides along the surface of the lens body 7, so that the top end of the scraping blade 1021 is in close contact with the surface of the lens body 7, and the effect of scraping the dirt adhered to the surface of the lens body 7 by the scraping blade 1021 is improved by the close contact.

Specifically, the multiple rows of dust scraping teeth 102 are arranged in front of the hard brush 103 at equal intervals, each row of dust scraping teeth 102 is provided with the obliquely fixed scraping blade 1021, the self-cleaning assembly 10 circularly moves on the surface of the lens body 7, the scraping blade 1021 is used for scraping the surface of the lens body 7, dirt adhered to the surface of the lens body 7 is scraped by the scraping blade 1021, the surface of the cleaning body is cleaned by the hard brush 103, the cleaning cleanliness of the surface of the lens body 7 is further improved, in the scraping process, the adjacent two rows of scraping blades 1021 slide back and forth when the dirt on the surface of the lens body 7 is scraped, the scraping blade 1021 is obliquely fixed in cooperation with the scraping blade 1021 by pushing of the corrugated teeth 11, the sharpness of the scraping blade 1021 is improved, and the efficiency and the scraping force of the dirt adhered to the surface of the lens body 7 are improved.

The rear of the hard brush 103 is provided with a first cleaning roller 104, a cleaning roller 108, a second cleaning roller 109 and a wiping sponge 110 at equal intervals in sequence, the first cleaning roller 104 is arranged to be cylindrical, the cleaning roller 108 is arranged to be cylindrical, the second cleaning roller 109 is arranged to be cylindrical, the wiping sponge 110 is arranged to be blocky, the front end and the rear end of the first cleaning roller 104, the cleaning roller 108, the second cleaning roller 109 and the wiping sponge 110 are symmetrically provided with support rods, the support rods of each first cleaning roller 104, the cleaning roller 108, the second cleaning roller 109 and the wiping sponge 110 on two sides are symmetrically arranged in spring grooves 1023 corresponding to two sides, and springs 1024 are embedded in each spring groove 1023;

the outer circumferential surface of the first cleaning roller 104 is wrapped with a cleaning soft glue 1041. The soft cleaning rubber 1041 is one of Xuanqi soft cleaning soft rubber of Qishang Sha daily necessities of Beijing Lang panning article Limited, and the product components are high molecular polymer, methylisothiazolinone and aromatic which are imported from Swiss, no pigment is added, and no stimulation is caused to skin.

Specifically, the invention arranges a first cleaning roller 104, a cleaning roller 108, a second cleaning roller 109 and a wiping sponge 110 at equal intervals behind a hard brush 103, removes the dirt adhered on the surface of the lens body 7 by moving the self-cleaning component 10 on the surface of the lens body 7 once, cleans the surface of the lens body 7, removes the tiny particles adhered on the surface of the lens body 7 by adhering the cleaned surface of the lens body 7 by the first cleaning roller 104, wets the surface of the lens body 7 by wiping the surface of the lens body 7 by the cleaning roller 108, is convenient for wiping the surface of the lens body 7 at a later stage, adheres the surface of the lens body 7 by the second cleaning roller 109 again, removes the wetted tiny particles, and finally wipes by the wiping sponge 110, the surface of the lens body 7 is cleaned as new, the self-cleaning assembly 10 moves once from the surface of the lens body 7 to complete a plurality of cleaning processes, and the self-cleaning assembly 10 moves and slides from the surface of the lens body 7 for a plurality of times by matching with the rotation of the micro motor 106 to clean the surface of the lens body 7, so that the surface cleanliness of the cleaned lens body 7 is improved, and the cleaning effect on the surface of the lens body 7 is improved.

The cleaning roller 108 comprises a water absorbing cotton wool 1081, a water storage tank 1082 and a water absorbing cotton piece 1083, the outer circular surface of the cleaning roller 108 is uniformly wrapped with the water absorbing cotton wool 1081, the water storage tank 1082 is fixedly mounted above the cleaning roller 108, the water absorbing cotton piece 1083 extends out of the bottom of the water storage tank 1082, the water absorbing cotton piece 1083 is equal to the cleaning roller 108 in length, and the water absorbing cotton piece 1083 is tightly attached to the water absorbing cotton wool 1081 on the outer circular surface of the cleaning roller 108.

Specifically, the cleaning roller 108 of the present invention carries a water storage tank 1082 by itself, the water storage tank 1082 stores water therein, the water in the water storage tank 1082 is sucked out by a water absorption cotton piece 1083 through siphon characteristics, the water absorption cotton piece 1083 is closely attached to the water absorption cotton wool 1081 on the outer circumferential surface of the cleaning roller 108, the water is absorbed on the water absorption cotton wool 1081 through siphon characteristics, the cleaning roller 108 rolls along the surface of the lens body 7, the water absorption cotton wool 1081 on the outer circumferential surface of the cleaning roller 108 is pressed by the surface of the lens body 7, so that the water is extruded on the surface of the lens body 7 to wet the surface of the lens body 7, the second cleaning roller 109 at the rear is convenient to adhere and remove the dirt on the surface of the lens body 7 by wetting the surface of the lens body 7, the second cleaning roller 109 scrapes the particulate matters supported by the tension of the water surface by the scraping shovel 1091, and then the second cleaning soft glue 1092 adheres particles adhered to the surface of the lens body 7, and finally the sponge 110 is wiped, so that the cleanliness of the surface of the lens body 7 is effectively improved.

The second cleaning roller 109 comprises a scraping shovel 1091 and a second cleaning soft glue 1092, the second cleaning soft glue 1092 is uniformly wrapped on the outer circumferential surface of the second cleaning roller 109, the scraping shovel 1091 is fixedly installed in the advancing direction of the second cleaning roller 109, and the scraping shovel 1091 is obliquely fixed in front of the advancing direction of the second cleaning roller 109.

The bilateral symmetry of scraping shovel 1091 is provided with scraping shovel support, and scraping shovel support is elastic telescopic link, and elastic telescopic link carries out elastic support for through the spring, but makes scraping shovel support elastic extension or shorten.

Specifically, the scraping shovel 1091 of the present invention is supported by the spring 1024, so that when the scraping shovel 1091 contacts with the surface of the lens body 7, the scraping shovel 1091 slides along the surface of the lens body 7, so that the top end of the scraping shovel 1091 is in close contact with the surface of the lens body 7, and the scraping effect of the scraping shovel 1091 on the dirt adhered to the surface of the lens body 7 is improved by the close contact.

The working principle of the self-cleaning assembly is as follows:

according to the surface self-cleaning device of the wireless intelligent communication equipment, the two self-cleaning assemblies 10 are arranged, when the two self-cleaning assemblies 10 do not work, the two self-cleaning assemblies 10 are respectively hidden at the upper side and the lower side of the irradiation direction of the lens body 7, and the self-cleaning assemblies 10 are parallelly hidden at the upper side and the lower side of the irradiation direction of the lens body 7, so that the occupied area of the self-cleaning assemblies 10 in the irradiation direction of the lens body 7 is reduced to the maximum extent, the self-cleaning assemblies 10 do not influence the image pickup work of the lens body 7, when the surface of the lens body 7 is dirty, the micro motor 106 rotates to drive the self-cleaning assemblies 10 to circularly move on the surface of the lens body 7, and the self-cleaning assemblies 10 move on the surface of the lens body 7 to scrub, clean and remove dust on the surface of.

The first cleaning roller 104, the cleaning roller 108, the second cleaning roller 109 and the wiping sponge 110 are sequentially arranged at equal intervals behind the hard brush 103, the dirt adhered to the surface of the lens body 7 is firstly removed by moving the self-cleaning component 10 on the surface of the lens body 7 once, then the surface of the lens body 7 is cleaned, the cleaned surface of the lens body 7 is adhered by the first cleaning roller 104 to remove the tiny particles adhered to the surface of the lens body 7, the surface of the lens body 7 is wiped by the cleaning roller 108 to wet the surface of the lens body 7, so that the surface of the lens body 7 is cleaned in the later period, the surface of the lens body 7 is adhered by the second cleaning roller 109 again to remove the wetted tiny particles, and finally the surface of the lens body 7 is wiped by the wiping sponge 110 to be clean as new, the self-cleaning assembly 10 moves once from the surface of the lens body 7 to complete a plurality of cleaning processes, and the rotation of the micro motor 106 is matched to enable the self-cleaning assembly 10 to move and slide from the surface of the lens body 7 for a plurality of times to clean the surface of the lens body 7, so that the surface cleanliness of the cleaned lens body 7 is improved, and the cleaning effect on the surface of the lens body 7 is improved.

The cleaning roller 108 carries a water storage tank 1082 by itself, the water storage tank 1082 stores water liquid, the water liquid in the water storage tank 1082 is sucked out by a water absorption cotton piece 1083 through siphon characteristics, the water absorption cotton piece 1083 is tightly attached to the water absorption cotton wool 1081 on the outer circumferential surface of the cleaning roller 108, the water liquid is adsorbed on the water absorption cotton wool 1081 through the siphon characteristics, the cleaning roller 108 rolls along the surface of the lens body 7, the water absorption cotton wool 1081 on the outer circumferential surface of the cleaning roller 108 is extruded through the surface of the lens body 7, the water liquid is extruded on the surface of the lens body 7 to moisten the surface of the lens body 7, the second cleaning roller 109 at the rear part is convenient to adhere and remove dirt on the surface of the lens body 7 through wetting the surface of the lens body 7, the second cleaning roller 109 scrapes particulate matters supported by the surface tension of the water liquid through a scrap scraper 1091, and the particulate matters adhered on the surface of the lens body 7 are adhered through a second cleaning soft rubber 1092, finally, the sponge 110 is wiped, so that the cleanliness of the surface of the lens body 7 is effectively improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A self-cleaning method for the surface of wireless intelligent communication equipment is characterized by comprising the following steps:

s1, motor rotation: when the wireless communication equipment needs cleaning, the micro motor rotates by sending a signal to the micro motor;

s2, rotation of the self-cleaning assembly: in the step S1, the micro motor rotates to drive the transmission chain to circularly move on the surface of the object to be cleaned;

s3, shoveling and brushing: the surface of the object to be cleaned is firstly removed and then cleaned by the self-cleaning assembly which rotates circularly in the step S2, the dirt adhered to the surface of the object to be cleaned is firstly removed, and then the surface of the object to be cleaned is cleaned by cleaning;

s4, wiping with water: performing water wiping and wiping on the surface of the object to be cleaned, which is firstly shoveled and then cleaned in the step S3, performing water wiping on the surface of the object to be cleaned through a self-cleaning assembly, wetting the surface of the object to be cleaned after cleaning with water liquid, and wiping the surface of the object to be cleaned clean to make the surface of the object to be cleaned bright;

s5, hiding and hiding: in the step S4, the self-cleaning component after wiping the surface of the object to be cleaned clean is hidden at the periphery of the surface of the object to be cleaned by circulating rotation, so that the normal operation of the surface of the object to be cleaned is not affected by the self-cleaning component;

the above-mentioned step S1-S5 is accomplished by a wireless intelligent communication device surface self-cleaning device, the wireless intelligent communication device surface self-cleaning device includes a fixed footing fixedly installed on a support, the top end of the fixed footing is installed with an installation locking frame, the installation locking frame is installed with a lens cone, the lens cone is set as a square cylinder structure, the middle part of the right end of the lens cone is provided with a lens cone groove, the right end of the lens cone is far away from the groove edge of the lens cone and is provided with a dust-blocking hood, the right end of the lens cone is located in the middle part of the lens cone groove and is provided with a lens body, the front and back sides of the lens cone groove are symmetrically provided with a plurality of conveying chain wheels arranged in rectangular shape, the front and back sides of the lens cone groove are symmetrically provided with circularly rotating driving chains, the driving chain of each side, the transmission chain on each side is supported by a plurality of conveying chain wheels which are arranged in a rectangular shape to form a square transmission chain, and any one of the conveying chain wheels on each side is provided with a micro motor for driving rotation;

two self-cleaning assemblies are connected between the transmission chains on the two sides, the two self-cleaning assemblies are arranged in the middle of the transmission chains on the two sides at equal intervals, the self-cleaning assemblies are hidden on the upper side and the lower side of the irradiation direction of the lens body, and the self-cleaning assemblies drive the transmission chains to rotate circularly on the two sides of the irradiation direction of the lens body through the micro motor;

the left side and the right side of the inner wall of the lens barrel groove are symmetrically provided with corrugated teeth, the self-cleaning assembly comprises a plurality of sliding hinged plates which are hinged oppositely, a second sliding hinged plate is connected between every two adjacent sliding hinged plates in a rotating mode, every two adjacent sliding hinged plates are connected with the second sliding hinged plates in a rotating mode and can slide oppositely, rolling wheels are symmetrically arranged on the front side and the rear side of each sliding hinged plate and on the front side and the rear side of each second sliding hinged plate, when the sliding hinged plates move to the corrugated teeth, the rolling wheels on the two sides of each second sliding hinged plate are connected with the corrugated teeth in a rolling mode, and hard brushes are arranged on the sliding hinged plates in the direction towards the lens body.

2. The method of claim 1, wherein the method comprises the following steps: the place ahead equidistant multi-column of stereoplasm brush is provided with the dirt tooth of scraping, and each is listed as the dirt tooth is including scraping shovel, scraping shovel support, spring groove, spring, the spring groove is seted up on the second slip articulated slab at two adjacent slip articulated slab middle parts, the spring inslot of second slip articulated slab installs the scraping shovel support through sliding fit mode, installs in the spring inslot through sliding fit mode scrape shovel support top and install the spring, the top of scraping shovel support is provided with the fixed scraping shovel of slope, the length is greater than around the scraping shovel the length of lens body.

3. The method of claim 2, wherein the method comprises the following steps: a first cleaning roller, a second cleaning roller and a wiping sponge are sequentially arranged behind the hard hairbrush at equal intervals, the first cleaning roller is cylindrical, the second cleaning roller is cylindrical, the wiping sponge is blocky, supporting rods are symmetrically arranged at the front end and the rear end of the first cleaning roller, the second cleaning roller and the wiping sponge, the supporting rods at the two sides of the first cleaning roller, the second cleaning roller and the wiping sponge are symmetrically arranged in spring grooves corresponding to the two sides of the first cleaning roller, the second cleaning roller and the wiping sponge, and springs are embedded in the spring grooves;

the outer circle surface of the first cleaning roller is wrapped with cleaning soft glue.

4. A method of self-cleaning a surface of a wireless intelligent communication device according to claim 3, wherein: the cleaning roller comprises a water absorption cotton wool, a water storage tank and a water absorption cotton piece, the water absorption cotton wool is uniformly wrapped on the outer circular surface of the cleaning roller, the water storage tank is fixedly mounted above the cleaning roller, the water absorption cotton piece is stretched out of the bottom of the water storage tank, the water absorption cotton piece is equal to the cleaning roller in length, and the water absorption cotton piece is tightly attached to the water absorption cotton wool on the outer circular surface of the cleaning roller.

5. A method of self-cleaning a surface of a wireless intelligent communication device according to claim 3, wherein: the second cleaning roller comprises a scraping shovel and a second cleaning soft rubber, the second cleaning soft rubber is uniformly wrapped on the outer circular surface of the second cleaning roller, the direction of the second cleaning roller is fixedly provided with the scraping shovel, and the scraping shovel is obliquely fixed in front of the second cleaning roller in the advancing direction.

6. The method of claim 5, wherein the method comprises the following steps: the two sides of the scrap scraping shovel are symmetrically provided with scrap scraping shovel supports which are elastic telescopic rods.

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