CN108002201B

CN108002201B - Application method of flapping type escalator handrail belt cleaning device

Info

Publication number: CN108002201B
Application number: CN201810081663.9A
Authority: CN
Inventors: 陈爱珍
Original assignee: Individual
Current assignee: Chen Huaying
Priority date: 2018-01-29
Filing date: 2018-01-29
Publication date: 2023-06-16
Anticipated expiration: 2038-01-29
Also published as: CN108002201A

Abstract

The invention provides a use method of a flapping type escalator handrail belt cleaning device, which comprises the following steps that S1, a standing groove is close to one side of an escalator, and a limiting cover is transversely buckled on the escalator handrail belt; s2, enabling the sponge block and the rag to be close to the surface of the automatic handrail belt; s3, the second hollow roller shaft drives four rags on the second supporting block to roll and clean the surface of the automatic handrail belt; the first hollow roller shaft drives four sponge blocks on the first supporting block to roll and dry on the surface of the automatic handrail belt; s4, starting a water suction pump to wet the rag to clean the handrail belt, and S5, starting a hot air blower to dry through a sponge block; and S6, friction is generated between the guide wheels below the limiting cover and the handrail belt, the guide wheels roll along with the handrail belt, and dust removal operation is performed on grooves on two sides of the lower part of the handrail belt through the hairbrushes in the limiting cover, so that the cleaning of the handrail belt is completed. The automatic handrail belt cleaning device can effectively clean the automatic handrail belt, and does not need manual operation.

Description

Application method of flapping type escalator handrail belt cleaning device

Technical Field

The invention relates to the technical field of special equipment, in particular to a use method of a flapping type escalator handrail belt cleaning device.

Background

At present, the escalator is widely applied to public places and large shops, all the escalators in the places are manually cleaned, and the escalator runs during cleaning. The hand-cleaning type escalator is characterized in that the cleaning cloth is manually used for cleaning the escalator handrail, so that on one hand, the cleaning is inconvenient, on the other hand, because the handrail is rotary, the hand-cleaning type escalator also has potential safety hazards because the hand-cleaning type escalator walks on the hand, and the hand-cleaning type escalator does not catch attention and can slide down from the hand-cleaning type escalator.

Disclosure of Invention

In order to overcome the problems, the invention aims to provide a use method of the flapping type escalator handrail belt cleaning device, and the use efficiency of the flapping type escalator handrail belt cleaning device is improved.

The invention is realized by adopting the following scheme: the utility model provides a beat formula escalator handrail belt cleaning device's application method, beat formula escalator handrail belt cleaning device includes standing groove, water storage tank and air heater, standing groove's one side is open-ended, the overhead of standing groove has set up an inverted U-shaped portal, inverted U-shaped portal's upper portion inboard sets up a stoving subassembly, inverted U-shaped portal's lower part inboard sets up a cleaning element, stoving subassembly includes first cavity roller and first box, the left end and the right-hand member outer wall of first cavity roller all overlap first bearing, two first bearings are fixed on inverted U-shaped portal, first box is fixed at inverted U-shaped lateral wall, be provided with first turbine vortex bar mechanism in the first box, first box external fixation has a first motor, first motor passes through first turbine vortex bar mechanism and drives first cavity roller and rotate, first cavity roller is last to be provided with four at least stoving subassemblies vertically upwards, the stoving subassembly includes guide roll and hollow supporting piece, first bearing and second bearing are fixed in the hollow roller is fixed in on the first air guide roll bearing, the hollow roller is fixed in with the first air inlet pipe, the hollow air inlet pipe has the second air inlet pipe, the hollow air inlet pipe is connected with the second air inlet pipe, the hollow air inlet is connected with the second air inlet pipe is fixed in the hollow main pipe, the hollow air inlet has the hollow air inlet; when the first turbine vortex rod mechanism drives the first hollow roll shaft to rotate, the air inlet main pipe cannot rotate along with the first hollow roll shaft; the cleaning assembly comprises a second hollow roller shaft and a second box, wherein the outer walls of the left end and the right end of the second hollow roller shaft are respectively sleeved with a third bearing, the two third bearings are fixed on an inverted U-shaped portal, the second box is fixed on the outer wall of the inverted U-shaped portal, a second turbine vortex rod mechanism is arranged in the second box, a second motor is fixedly arranged outside the second box, the second motor drives the second hollow roller shaft to rotate through the second turbine vortex rod mechanism, at least four cleaning pieces are vertically arranged on the second hollow roller shaft, each cleaning piece comprises an outer water outlet pipe and a hollow second supporting block, the outer water outlet pipe is communicated with the second hollow roller shaft, the second supporting blocks are fixed on the outer water outlet pipe, a plurality of water outlet holes are formed in the surface of each second supporting block, a rag is fixed in the surface of each second supporting block, a fourth bearing is nested in the left end of each second hollow roller shaft, a water suction pump is arranged in each water storage box, and the water suction pump is connected with one end of the main pipe and the other, and the water suction pump is connected with one end of the main pipe; when the second turbine vortex rod mechanism drives the second hollow roller shaft to rotate, the water inlet main pipe cannot rotate along with the second hollow roller shaft, the end part of the other end of the water inlet main pipe is sealed, four branch pipes are connected to the end sealing part of the other end of the water inlet main pipe, are respectively positioned in the water outlet outer pipes of the four cleaning pieces, and are connected with the second supporting blocks; a valve is arranged on the water inlet main pipe; a fixed block is fixed on two walls on the inner side of the middle part of the inverted U-shaped portal, a limiting cover for being buckled on an escalator handrail belt is arranged between the two fixed blocks, a guide wheel is arranged in the limiting cover, two sucking disc assemblies are respectively arranged on the left side wall and the right side wall of the limiting cover, a plurality of hairbrushes are transversely arranged in the two side walls of the limiting cover, and the hairbrushes are positioned between the guide wheel and the sucking disc assemblies;

the using method comprises the following steps:

s1, enabling one surface of the standing groove, which is open, to be close to one side of the escalator, enabling a limiting cover to be transversely buckled on an escalator handrail belt, and simultaneously enabling four sucker assemblies in the limiting cover to be adsorbed below the escalator;

s2, enabling sponge blocks on the four drying pieces to be close to the surface of the automatic handrail belt, and enabling rags on the four cleaning pieces to be close to the surface of the automatic handrail belt;

step S3, starting a second motor, wherein the second motor drives a second hollow roller shaft to rotate through a second turbine scroll mechanism, and the second hollow roller shaft drives four rags on a second supporting block to roll and clean the surface of the automatic handrail belt; starting a first motor, wherein the first motor drives a first hollow roller shaft to rotate through a first turbine vortex rod mechanism, and the first hollow roller shaft drives four sponge blocks on a first supporting block to roll and dry on the surface of an automatic handrail belt;

s4, starting a water suction pump, wherein the water suction pump can pump water into a water inlet main pipe, the water flows into a second supporting block through four branch pipes, and the water flows onto a cleaning cloth due to water outlet holes on the second supporting block, so that the cleaning cloth can clean the surface of an automatic handrail belt;

s5, starting an air heater, wherein hot air of the air heater flows into a hollow cavity of a first hollow roll shaft through an air inlet main pipe, and then flows into each first supporting block through an air guide pipe, and as the air outlet holes are formed in the first supporting blocks, the hot air can flow onto the sponge blocks, so that the sponge blocks can absorb and dry the water on the surface of the cleaned automatic handrail belt, a plurality of air outlet holes are formed in the outer wall of the first hollow roll shaft, and the hot air flows out from the air outlet holes, so that the surface of the handrail belt is dried;

and S6, friction is generated between the guide wheels below the limiting cover and the handrail belt, the guide wheels roll along with the handrail belt, and dust removal operation is performed on grooves on two sides of the lower part of the handrail belt through the hairbrushes in the limiting cover, so that the cleaning of the handrail belt is completed.

Further, the sucker assembly comprises a supporting rod, the supporting rod penetrates through the side wall of the limiting cover, a limiting block is arranged at one end of the supporting rod, a sucker is arranged at the other end of the supporting rod, and the sucker is located in the limiting cover; the specific operation mode of sucking or pulling out the sucker is as follows: the branch passes the lateral wall of limiting cover, and operating personnel carries out back-and-forth movement regulation with the branch on the lateral wall, when the sucking disc needs to adsorb on the escalator, inwards presses the branch, and when the sucking disc need not adsorb on the escalator, outwards pulls out the branch so that the sucking disc breaks away from the escalator.

Furthermore, the inner walls of the left side surface and the right side surface of the standing groove are respectively provided with a strip-shaped rail, a water containing groove is arranged between the two strip-shaped rails, the left side surface and the right side surface of the water containing groove are respectively provided with a strip-shaped guide rail, and the strip-shaped guide rails are arranged in the strip-shaped rails; after the cleaning cloth on the cleaning piece cleans the automatic handrail, the cleaning piece can drip water, and the water containing groove receives the dripped water.

Further, the right-hand member of first cavity roller extends to in the first box, the turbine cover of first turbine scroll bar mechanism is at the right-hand member of first cavity roller, the pivot of first motor is connected with the scroll bar of first turbine scroll bar mechanism, first motor passes through first turbine scroll bar mechanism drive first cavity roller and rotates, specifically does: the rotating shaft of the first motor rotates to drive the vortex rod of the first turbine vortex rod mechanism to rotate, and the vortex rod drives the turbine of the first turbine vortex rod mechanism to rotate, so that the first hollow roll shaft rotates.

Further, the right-hand member of second cavity roller extends to in the second box, the turbine cover of second turbine scroll bar mechanism is at the right-hand member of second cavity roller, the pivot of second motor is connected with the scroll bar of second turbine scroll bar mechanism, the second motor passes through second turbine scroll bar mechanism drive second cavity roller and rotates, specifically does: the rotating shaft of the second motor rotates to drive the vortex rod of the second turbine vortex rod mechanism to rotate, and the vortex rod drives the turbine of the second turbine vortex rod mechanism to rotate, so that the second hollow roll shaft rotates.

Further, the first supporting block is an inward concave first supporting block, the second supporting block is an outward convex second supporting block, and the sponge block is an arc-shaped sponge block.

Furthermore, a standing foot is arranged around the bottom of the standing groove.

Further, the guide wheel is arranged in a fixed frame, and the fixed frame is fixed in the limiting cover.

The invention has the beneficial effects that: the method is characterized in that an inverted U-shaped portal is arranged, a drying component is arranged on the inner side of the upper part of the inverted U-shaped portal, a cleaning component is arranged on the inner side of the lower part of the inverted U-shaped portal, a module for removing dust from handrail belts in grooves on two sides of an escalator is arranged in the middle of the inverted U-shaped portal, the drying component is driven to rotate through a first turbine vortex rod mechanism and a first motor, the cleaning component is driven to rotate through a second turbine vortex rod mechanism and a second motor, so that four cleaning pieces can carry out flapping cleaning on the surfaces of the automatic handrail belts, and four drying pieces can carry out flapping drying on the surfaces of the automatic handrail belts, so that the cleaning and wiping operations are carried out on the surfaces of the automatic handrail belts, and meanwhile, dust is removed from handrail belts in grooves on two sides of the escalator, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic flow chart of the method of the present invention.

Fig. 2 is a schematic structural view of the present invention.

Fig. 3 is a schematic view of the structure of the water tank of the present invention.

Fig. 4 is a schematic cross-sectional structure of the drying assembly of the present invention.

Fig. 5 is a schematic cross-sectional view of a cleaning assembly of the present invention.

Fig. 6 is a schematic side view of the present invention applied to an escalator.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

Referring to fig. 1 to 6, the usage of the beating type escalator handrail belt cleaning device of the present invention includes a standing groove 1, a water storage tank 2 and an air heater 3, one surface 11 of the standing groove 1 is open, so that the standing groove 1 can better approach the escalator, an inverted U-shaped portal 4 is erected on the standing groove 1, a drying component 5 is disposed on the inner side of the upper portion of the inverted U-shaped portal 4, a cleaning component 6 is disposed on the inner side of the lower portion of the inverted U-shaped portal 4, the drying component 5 includes a first hollow roller shaft 51 and a first box 52, a first bearing 53 is sleeved on the outer walls of the left end and the right end of the first hollow roller shaft 51, and the two first bearings 53 are fixed on the inverted U-shaped portal 4, so that the first hollow roller shaft rolls between the two first bearings 53 through the driving of a first motor; the first box 52 is fixed on the outer side wall of the inverted U-shaped portal 4, a first turbine scroll mechanism 54 is arranged in the first box 52, a first motor 55 is fixed outside the first box 52, the first motor 55 drives the first hollow roller shaft 51 to rotate through the first turbine scroll mechanism 54, at least four drying pieces 56 are vertically and upwardly arranged on the first hollow roller shaft 51, the drying pieces 56 comprise air guide pipes 561 and hollow first supporting blocks 562, the air guide pipes 561 are communicated with the first hollow roller shaft 51, the first supporting blocks 562 are fixed on the air guide pipes 561, a plurality of air outlet holes (not shown) are formed in the surface of the first supporting blocks 562, a sponge block 563 is fixed on the surface of the first supporting blocks 562, a plurality of air outlet holes 511 are formed in the outer wall of the first hollow roller shaft 51, a second bearing 57 is nested in the left end of the first hollow roller shaft 51, a main pipe 58 is connected between the air heater 3 and the first hollow roller shaft 51, and the main pipe 58 is connected with the air inlet end of the main pipe 58, and the other main pipe 57 is connected with the air inlet end of the main pipe 58; when the first turbine scroll mechanism 54 drives the first hollow roller shaft 51 to rotate, the air inlet main pipe 58 does not rotate along with the first hollow roller shaft 51; wherein, a valve (not shown) can be arranged on the air inlet main pipe 58; thus, the hot air of the air heater flows into the hollow cavity of the first hollow roll shaft 51 through the air inlet main pipe 58, and then flows into each first supporting block 562 through the air guide pipe 561, and as the air outlet holes are formed in the first supporting blocks 562, the hot air can flow onto the sponge blocks, and the sponge blocks can absorb and dry the water on the surface of the cleaned automatic handrail belt. In addition, a plurality of air outlet holes 511 are formed in the outer wall of the first hollow roller shaft 51, and hot air flows out of the air outlet holes 511, thereby performing a drying operation.

The cleaning assembly 6 comprises a second hollow roller shaft 61 and a second box 62, wherein the outer walls of the left end and the right end of the second hollow roller shaft 61 are respectively sleeved with a third bearing 63, and the two third bearings 63 are fixed on the inverted U-shaped portal 4, so that the second hollow roller shaft 61 rolls between the two third bearings 53 through the driving of a second motor; the second box 62 is fixed on the outer side wall of the inverted U-shaped portal 4, a second turbine vortex rod mechanism 64 is arranged in the second box 62, a second motor 65 is fixed outside the second box 62, the second motor 65 drives a second hollow roll shaft 61 to rotate through the second turbine vortex rod mechanism 64, at least four cleaning pieces 66 are vertically and upwardly arranged on the second hollow roll shaft 61, each cleaning piece 66 comprises an outer water outlet pipe 661 and a hollow second supporting block 662, the outer water outlet pipe 661 is communicated with the second hollow roll shaft 61, the second supporting block 662 is fixed on the outer water outlet pipe 661, a plurality of water outlet holes (not shown) are formed in the surface of the second supporting block 662, a cleaning cloth 663 is fixed on the surface of the second supporting block 662, a fourth bearing 67 is nested in the left end of the second hollow roll shaft 61, a water pump is arranged in the water storage tank 2, a water inlet 68 is connected between the water pump and the second hollow roll shaft 61, and one end of the water inlet pump 68 is fixed on the main pipe 68; when the second turbine scroll mechanism 64 drives the second hollow roller shaft 61 to rotate, the main water inlet pipe 68 does not rotate along with the second hollow roller shaft 61, the end part of the other end of the main water inlet pipe 68 is sealed, the sealed part of the end part of the other end of the main water inlet pipe 68 is connected with four branch pipes 69, the four branch pipes 69 are respectively positioned in the outer water outlet pipes 661 of the four cleaning pieces 66, and the branch pipes 69 are connected with the second supporting blocks 662; a valve is arranged on the water inlet main pipe 68; the intake main pipe 68 and the intake main pipe 58 are hoses. Thus, the water in the water storage tank 2 can be pumped into the water inlet main pipe through the water suction pump and then flows into the second supporting block 662 through the four branch pipes 69, and the water can flow onto the cleaning cloth due to the water outlet holes in the second supporting block 662, so that the cleaning cloth can clean the surface of the automatic handrail belt; in practice the wipe may also be a sponge block.

The fixed blocks 41 are fixed on two inner side walls of the middle of the inverted U-shaped portal frame 4, a limiting cover 7 used for being buckled on a handrail belt 81 of the escalator 8 is arranged between the two fixed blocks 41, a guide wheel 71 is arranged in the limiting cover 7, two sucking disc assemblies 72 are respectively arranged on the left side wall and the right side wall of the limiting cover 7, a plurality of hairbrushes 73 are transversely arranged in two side walls of the limiting cover 7, and the hairbrushes 73 are located between the guide wheel 71 and the sucking disc assemblies 72. The sucker assembly can adsorb the limiting cover 7 on the escalator, and the brushes at the two sides of the limiting cover can be embedded in the handrail belts of the grooves at the two sides of the escalator, so that the limiting cover performs dust removal operation on the handrail belts of the grooves at the two sides of the escalator through the brushes under the guidance of the guide wheels;

the using method comprises the following steps:

step S1, enabling one surface 11 of the standing groove 1, which is open, to be close to one side of the escalator, enabling the limiting cover 7 to be transversely buckled on the handrail belt 81 of the escalator 8, and simultaneously enabling four sucker assemblies 72 in the limiting cover 7 to be adsorbed below the escalator 8;

step S2, the sponge blocks 563 on the four drying parts 56 are close to the surface of the automatic handrail, and the rags 663 on the four cleaning parts 66 are close to the surface of the automatic handrail;

step S3, starting a second motor 65, wherein the second motor 65 drives a second hollow roller shaft 61 to rotate through a second turbine worm mechanism 64, and the second hollow roller shaft 61 drives four cleaning cloths 663 on a second supporting block 662 to roll and clean the surface of an automatic handrail belt; starting a first motor 55, wherein the first motor 55 drives a first hollow roller shaft 51 to rotate through a first turbine scroll mechanism 54, and the first hollow roller shaft 51 drives four sponge blocks 563 on a first supporting block 562 to roll and dry on the surface of an automatic handrail belt;

step S4, starting a water suction pump, wherein the water suction pump can pump water into a water inlet main pipe 68, the water flows into a second supporting block 662 through four branch pipes 69, and the water flows onto a cleaning cloth 663 due to water outlet holes on the second supporting block 662, so that the cleaning cloth 663 can clean the surface of an automatic handrail belt;

step S5, starting the air heater 3, wherein hot air of the air heater 3 flows into the hollow cavity of the first hollow roller shaft 51 through the air inlet main pipe 58, and then flows into each first supporting block 562 through the air guide pipe 561, and as the air outlet holes are formed in the first supporting blocks 562, the hot air can flow onto the sponge blocks 563, so that the sponge blocks 563 can absorb and dry the water on the surface of the cleaned automatic handrail belt, a plurality of air outlet holes are formed in the outer wall of the first hollow roller shaft 51, and the hot air flows out from the air outlet holes, so that the surface of the handrail belt is dried;

step S6, friction is generated between the guide wheels 71 below the limiting cover 7 and the handrail belt 81, the guide wheels 71 roll along with the handrail belt, and dust removal operation is performed on grooves on two sides of the lower portion of the handrail belt through brushes in the limiting cover 7, so that the cleaning of the handrail belt is completed. In addition, the water pump, the air heater 3, the first motor 55, and the second motor 65 can be controlled to be turned on or off by a control box, and the control principle of the control box is not described in detail in the prior art.

The suction cup assembly 72 includes a supporting rod 721, the supporting rod 721 passes through the side wall of the limiting cover 7, a limiting block 722 is disposed at one end of the supporting rod 721, a suction cup 723 is disposed at the other end of the supporting rod 721, and the suction cup 723 is located in the limiting cover 7. The specific operation mode of sucking or pulling out the sucker is as follows: the branch passes the lateral wall of limiting cover, and operating personnel carries out back-and-forth movement regulation with the branch on the lateral wall, when the sucking disc needs to adsorb on the escalator, inwards presses the branch, and when the sucking disc need not adsorb on the escalator, outwards pulls out the branch so that the sucking disc breaks away from the escalator.

In addition, there is a small amount of water drop on the cleaning piece when cleaning the automatic handrail area, and a strip-shaped rail 12 has all been seted up to the inner wall of the left and right sides face of standing groove 1 this moment, is provided with a water holding groove 13 between two strip-shaped rails 12, the left and right sides face of water holding groove 13 all is provided with a strip-shaped guide rail 131, strip-shaped guide rail 131 set up in strip-shaped rail 12. The water tank 13 can be freely taken out and put in like a drawer type, and the water tank can recover the dropped water. After the cleaning cloth on the cleaning piece cleans the automatic handrail, the cleaning piece can drip water, and the water containing groove receives the dripped water.

The right end of the first hollow roller shaft 51 extends into the first box 52, the turbine 541 of the first turbine scroll mechanism 54 is sleeved on the right end of the first hollow roller shaft 51, and the rotating shaft of the first motor is connected with the scroll 542 of the first turbine scroll mechanism 54; the first motor 55 drives the first hollow roller shaft 51 to roll through the first turbine scroll mechanism 54, specifically: the rotating shaft of the first motor rotates to drive the vortex rod of the first turbine vortex rod mechanism to rotate, and the vortex rod drives the turbine of the first turbine vortex rod mechanism to rotate, so that the first hollow roll shaft rotates. The right end of the second hollow roller shaft 61 extends into the second box 62, a turbine 641 of the second turbine scroll mechanism 64 is sleeved on the right end of the second hollow roller shaft 61, and a rotating shaft of the second motor 65 is connected with a scroll 642 of the second turbine scroll mechanism 64; the second motor drives the second hollow roller shaft 61 to roll through the second turbine scroll mechanism 64, specifically: the rotating shaft of the second motor rotates to drive the vortex rod of the second turbine vortex rod mechanism to rotate, and the vortex rod drives the turbine of the second turbine vortex rod mechanism to rotate, so that the second hollow roll shaft rotates.

The first support block 562 is an inward concave first support block, the second support block 662 is an outward convex second support block, and the sponge block is an arc-shaped sponge block 563. The rag on the second supporting shoe can outwards bulge so as to better clean the surface of the automatic handrail belt, namely, the surface of the handrail belt is beaten, and the sponge block on the first supporting shoe can inwards concave so as to better contact with the surface of the handrail belt, so that the sponge block absorbs moisture on the surface of the handrail belt.

In the invention, a standing foot 14 is arranged around the bottom of the standing groove 1. The guide wheel 71 is arranged in a fixed frame, and the fixed frame is fixed in the limiting cover. The guide wheel can slide on the surface of the automatic handrail belt better.

In a word, the invention has set up an inverted U-shaped portal, set up a stoving subassembly in the upper portion inboard of the inverted U-shaped portal, the lower portion inboard of the inverted U-shaped portal sets up a cleaning subassembly, the middle part sets up the module that is used for carrying out dust removal to the handrail area in the recess of both sides of escalator, the stoving subassembly is through first turbine vortex bar mechanism and first motor drive rotation, the cleaning subassembly is through second turbine vortex bar mechanism and second motor drive rotation, four cleaning members can carry out the beating to the automatic handrail area surface like this, four stoving members can carry out the beating stoving to the automatic handrail area surface, thereby wash and wipe the dry operation to the automatic handrail area surface, simultaneously carry out dust removal to the handrail area in the recess of escalator both sides, work efficiency has been improved.

The foregoing description is only of the preferred embodiments of the invention, and all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims

1. The application method of the beating type escalator handrail belt cleaning device is characterized by comprising the following steps of: the cleaning device for the beating type escalator handrail belt comprises a standing groove, a water storage tank and an air heater, wherein one surface of the standing groove is of an open type, an inverted U-shaped portal is erected on the standing groove, a drying assembly is arranged on the inner side of the upper part of the inverted U-shaped portal, a cleaning assembly is arranged on the inner side of the lower part of the inverted U-shaped portal, the drying assembly comprises a first hollow roller and a first box, a first bearing is sleeved on the outer walls of the left end and the right end of the first hollow roller, the two first bearings are fixed on the inverted U-shaped portal, the first box is fixed on the outer side wall of the inverted U-shaped portal, a first turbine vortex rod mechanism is arranged in the first box, a first motor is fixed outside the first box, the first motor drives a first hollow roller to rotate through the first turbine vortex rod mechanism, at least four drying pieces are vertically arranged on the first hollow roller, each drying piece comprises a wind guide pipe and a first supporting block, the wind guide pipe and the first hollow roller are in a penetrating mode, the first supporting block is sleeved with the left end of the first hollow roller, two first bearings are fixed on the first supporting blocks, a plurality of wind guide pipes are fixedly connected with the inner rings of the hollow roller bearing, and the inner rings are fixedly connected with the inner side of the hollow roller bearing, and the air inlet is fixedly provided with the inner side of the hollow main pipe is provided with the hollow main pipe, and the air inlet is provided with the air inlet hole; when the first turbine vortex rod mechanism drives the first hollow roll shaft to rotate, the air inlet main pipe cannot rotate along with the first hollow roll shaft; the cleaning assembly comprises a second hollow roller shaft and a second box, wherein the outer walls of the left end and the right end of the second hollow roller shaft are respectively sleeved with a third bearing, the two third bearings are fixed on an inverted U-shaped portal, the second box is fixed on the outer wall of the inverted U-shaped portal, a second turbine vortex rod mechanism is arranged in the second box, a second motor is fixedly arranged outside the second box, the second motor drives the second hollow roller shaft to rotate through the second turbine vortex rod mechanism, at least four cleaning pieces are vertically arranged on the second hollow roller shaft, each cleaning piece comprises an outer water outlet pipe and a hollow second supporting block, the outer water outlet pipe is communicated with the second hollow roller shaft, the second supporting blocks are fixed on the outer water outlet pipe, a plurality of water outlet holes are formed in the surface of each second supporting block, a rag is fixed in the surface of each second supporting block, a fourth bearing is nested in the left end of each second hollow roller shaft, a water suction pump is arranged in each water storage box, and the water suction pump is connected with one end of the main pipe and the other, and the water suction pump is connected with one end of the main pipe; when the second turbine vortex rod mechanism drives the second hollow roller shaft to rotate, the water inlet main pipe cannot rotate along with the second hollow roller shaft, the end part of the other end of the water inlet main pipe is sealed, four branch pipes are connected to the end sealing part of the other end of the water inlet main pipe, are respectively positioned in the water outlet outer pipes of the four cleaning pieces, and are connected with the second supporting blocks; a valve is arranged on the water inlet main pipe; a fixed block is fixed on two walls on the inner side of the middle part of the inverted U-shaped portal, a limiting cover for being buckled on an escalator handrail belt is arranged between the two fixed blocks, a guide wheel is arranged in the limiting cover, two sucking disc assemblies are respectively arranged on the left side wall and the right side wall of the limiting cover, a plurality of hairbrushes are transversely arranged in the two side walls of the limiting cover, and the hairbrushes are positioned between the guide wheel and the sucking disc assemblies;

the using method comprises the following steps:

2. The method for using the flapping escalator handrail belt cleaning device according to claim 1, wherein: the sucker assembly comprises a supporting rod, the supporting rod penetrates through the side wall of the limiting cover, a limiting block is arranged at one end of the supporting rod, a sucker is arranged at the other end of the supporting rod, and the sucker is located in the limiting cover; the specific operation mode of sucking or pulling out the sucker is as follows: the branch passes the lateral wall of limiting cover, and operating personnel carries out back-and-forth movement regulation with the branch on the lateral wall, when the sucking disc needs to adsorb on the escalator, inwards presses the branch, and when the sucking disc need not adsorb on the escalator, outwards pulls out the branch so that the sucking disc breaks away from the escalator.

3. The method for using the flapping escalator handrail belt cleaning device according to claim 1, wherein: the inner walls of the left side surface and the right side surface of the standing groove are respectively provided with a strip-shaped rail, a water containing groove is arranged between the two strip-shaped rails, the left side surface and the right side surface of the water containing groove are respectively provided with a strip-shaped guide rail, and the strip-shaped guide rails are arranged in the strip-shaped rails; after the cleaning cloth on the cleaning piece cleans the automatic handrail, the cleaning piece can drip water, and the water containing groove receives the dripped water.

4. The method for using the flapping escalator handrail belt cleaning device according to claim 1, wherein: the right-hand member of first cavity roller extends to in the first box, the turbine cover of first turbine scroll bar mechanism is at the right-hand member of first cavity roller, the pivot of first motor is connected with the scroll bar of first turbine scroll bar mechanism, first motor passes through first turbine scroll bar mechanism drive first cavity roller and rotates, specifically does: the rotating shaft of the first motor rotates to drive the vortex rod of the first turbine vortex rod mechanism to rotate, and the vortex rod drives the turbine of the first turbine vortex rod mechanism to rotate, so that the first hollow roll shaft rotates.

5. The method for using the flapping escalator handrail belt cleaning device according to claim 1, wherein: the right-hand member of second cavity roller extends to in the second box, the turbine cover of second turbine scroll bar mechanism is at the right-hand member of second cavity roller, the pivot of second motor is connected with the scroll bar of second turbine scroll bar mechanism, the second motor passes through second turbine scroll bar mechanism drive second cavity roller and rotates, specifically does: the rotating shaft of the second motor rotates to drive the vortex rod of the second turbine vortex rod mechanism to rotate, and the vortex rod drives the turbine of the second turbine vortex rod mechanism to rotate, so that the second hollow roll shaft rotates.

6. The method for using the flapping escalator handrail belt cleaning device according to claim 1, wherein: the first supporting block is an inward concave first supporting block, the second supporting block is an outward convex second supporting block, and the sponge block is an arc sponge block.

7. The method for using the flapping escalator handrail belt cleaning device according to claim 1, wherein: and a standing foot is arranged around the bottom of the standing groove.

8. The method for using the flapping escalator handrail belt cleaning device according to claim 1, wherein: the guide wheel is arranged in a fixed frame, and the fixed frame is fixed in the limiting cover.