CN116967173B - Electrical equipment cleaning device - Google Patents

Abstract

The invention belongs to the technical field of electrical equipment cleaning devices, in particular to an electrical equipment cleaning device which comprises an inner pipe, wherein an outer pipe is sleeved outside the inner pipe, bolts are screwed on the outer pipe, the lower end of the inner pipe is connected with a water pipe, a fixing frame assembly is arranged at the upper end of the inner pipe, an annular brush is arranged in the fixing frame assembly, an arc-shaped pipeline is fixedly arranged on the annular brush, a hose is connected with the middle part of the arc-shaped pipeline, a plurality of groups of through holes are formed in the inner ring of the arc-shaped pipeline at equal angles, one end of the hose is connected with the inner pipe, and compared with the prior art, the total length of the inner pipe and the outer pipe can be adjusted, so that the annular brush can clean porcelain bottles at different heights and different lengths, and staff can clean the porcelain bottles at different heights more conveniently due to the fact that the annular brush is of an opening type design, the annular brush is convenient to be assembled on the porcelain bottles, and the cleaning efficiency of the porcelain bottles is improved.

Description

Electrical equipment cleaning device

Technical Field

The invention belongs to the technical field of electrical equipment cleaning devices, and particularly relates to an electrical equipment cleaning device.

Background

Porcelain insulators are generally formed by gluing or mechanically clamping insulating parts such as porcelain parts and metal accessories by using adhesive, the insulators are widely applied to electric power systems, generally belong to external insulation, work under atmospheric conditions, and are supported by insulators for externally charged conductors of overhead transmission lines, power plants and substations and various electric equipment, and are insulated from the ground, grounding objects or other conductors with potential differences, and after the porcelain insulators are used for a period of time, a layer of dust is often adhered to the surfaces of the porcelain insulators, so that a cleaning device is needed for cleaning the porcelain insulators.

The utility model provides a handheld belt cleaning device of substation electrical equipment vase, relates to electrical equipment technical field, including the water tank, the top fixedly connected with water pump of water tank, the top fixedly connected with raceway of water pump, the top fixedly connected with wiper mechanism of raceway, wiper mechanism's bottom fixedly connected with wet return, wet return's bottom fixedly connected with filter mechanism. According to the invention, the annular plate is conveniently driven to rotate by the hand-held handle, so that the shell of the device is conveniently inserted into the side face of the electric porcelain bottle through the arrangement of the slot, then the annular plate is reset by the hand-held handle, and the driving wheel can be driven to rotate by starting the motor, and the gear ring can drive the cleaning brush to rotate, so that the electric porcelain bottle is conveniently cleaned by the cleaning brush, the cleaning effect of the porcelain bottle is improved, and the use of the porcelain bottle is facilitated.

In the scheme, when the electric porcelain bottle is cleaned, the annular plate is conveniently driven to rotate by the handheld handle, so that the annular plate is retracted into the shell, the shell of the cleaning mechanism is conveniently inserted into the side face of the electric porcelain bottle through the arrangement of the slot, and then the annular plate can be reset by the handheld handle, therefore, the manual operation of the handheld handle is needed in the operation process, but most porcelain bottles are installed at a higher position, so that workers need to clean the porcelain bottles along with the device at a higher position, the cleaning is inconvenient, the safety risk of the workers is increased, the arm length of the workers is limited, and if the length of the porcelain bottles is long, the workers operate the equipment to clean the porcelain bottles, so that the cleaning of the porcelain bottles is not thorough; to this end, the invention provides an electrical equipment cleaning device.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to an electric equipment cleaning device, which comprises an inner pipe, wherein an outer pipe is sleeved outside the inner pipe, a bolt is screwed on the outer pipe, the lower end of the inner pipe is connected with a water pipe, the upper end of the inner pipe is provided with a fixing frame component, an annular hairbrush is arranged in the fixing frame component, an arc-shaped pipeline is fixedly arranged on the annular hairbrush, the middle part of the arc-shaped pipeline is connected with a hose, a plurality of groups of through holes are formed in the inner ring of the arc-shaped pipeline at equal angles, and one end of the hose is connected with the inner pipe;

compared with the prior art, because the total length of the inner tube and the outer tube is adjustable, the annular hairbrush can clean porcelain bottles at different heights and different lengths, so that operators can clean the porcelain bottles at different heights more conveniently, and secondly, because the annular hairbrush is in an open type design, the annular hairbrush is convenient to assemble on the porcelain bottles, and the cleaned efficiency of the porcelain bottles is improved.

Preferably, the mount assembly includes: the support body, support body fixed connection inner tube, annular brush includes: the brush comprises a brush frame, a plurality of groups of brush bodies, eight groups of guide posts, a movable plate, an arc-shaped pipeline, a bearing plate, a double-thread screw, a first rectangular sliding chute, a brush handle, an oblique sliding chute, a plurality of groups of second rectangular sliding chutes, a brush handle, a second rectangular sliding chute, a first shaft arranged in the second rectangular sliding chute, a first shaft connected with the oblique sliding chute in a sliding manner, a second shaft connected with the first rectangular sliding chute in a sliding manner, and a first double-thread screw connected with the bearing plate in a threaded manner, wherein the brush frame is rotationally connected with the frame body;

along with the rotation of the double-thread screw rod, the two groups of bearing plates and the two groups of arc-shaped rails move in opposite directions, the two groups of arc-shaped rails drive the two groups of movable plates to move in opposite directions along the corresponding guide posts, the movable plates drive the first movable plates to slide along the inclined sliding grooves on the brush handle of the brush body, and the first movable plates squeeze the groove walls of the inclined sliding grooves, so that the brush handle of the brush body moves along the first rectangular sliding grooves towards the porcelain insulator, the extrusion force of fiber wires and the porcelain insulator on the brush body is increased along with the movement of the brush body, and the cleaning efficiency of the brush body to the porcelain insulator is ensured.

Preferably, the mount assembly further comprises: the reciprocating screw is screwed into the frame body, the sliding plate is sleeved on the reciprocating screw, the two groups of sliding rods are connected with the sliding plate in a sliding manner, the sliding rods are fixedly arranged in the frame body, the driving shaft is screwed onto the sliding plate, a spiral sliding groove is formed in the outer ring of the brush frame, and the driving shaft is rotationally connected with the spiral sliding groove;

along with reciprocating screw rotates, the sliding plate reciprocates from top to bottom along the slide bar, and the sliding plate drives the drive shaft to roll along the spiral spout simultaneously to the cell wall of drive shaft extrusion spiral spout makes the brush yoke rotate along the support body inner circle, and the brush yoke will drive a plurality of groups brush body and rotate, because the drive shaft makes reciprocating motion along the spiral spout back and forth, thereby makes the brush yoke constantly rotate, makes the vase part that brush yoke opening part corresponds can be cleared up by the brush body, thereby makes the vase by the more comprehensive of clearance.

Preferably, two groups of arc-shaped sliding grooves are formed in the outer ring of the brush frame, a plurality of groups of rollers are rotatably connected to the frame body at equal angles, and the rollers are rotatably connected with the arc-shaped sliding grooves;

the rollers and the arc-shaped sliding grooves are set, so that the brush holder can rotate more smoothly, and meanwhile, the brush holder can be guided to rotate.

Preferably, the mount assembly further comprises: the guiding mechanism, guiding mechanism plays the guide effect to the removal of device, and guiding mechanism includes: the arc-shaped strip is movably inserted into the frame body, the end part of a piston rod of the electric push rod is rotatably connected with the middle part of the arc-shaped strip, the tail part of a cylinder body of the electric push rod is rotatably connected with the frame body, two groups of pin shafts are symmetrically arranged at the two ends of the arc-shaped strip, and the limiting block is provided with an oblique arc groove and is slidably connected with the oblique arc groove, two groups of rectangular guide holes are symmetrically arranged on the outer circle of the frame body, and the limiting block is movably inserted into the rectangular guide holes;

the arc strip drives two sets of round pins to slide along two sets of slant arc grooves to the cell wall in round pin axle extrusion slant arc groove makes two sets of limit blocks remove towards the vase, until the arcwall face and the laminating of vase outer lane of stopper one end, because the stopper centre gripping is in the vase both sides, plays the guide effect to annular brush, guarantees that annular brush radially removes along the vase, thereby guarantees that the dirty on the vase is cleaned up.

Preferably, the stopper includes: the bearing frame is provided with an oblique arc groove, two groups of shafts II which are inserted on the bearing frame, arc blocks for fixedly connecting the shafts II, and a screw rod which is in threaded connection with the bearing frame, wherein one end of the screw rod is in threaded connection with the arc blocks;

along with the rotation of screw rod, the arc piece will be moved towards the vase direction, makes arc piece distance shorten to compensate the distance difference that the vase external diameter diminishes, guarantee that arc piece tip can laminate the vase, make the device can wash the vase of different external diameter sizes.

Preferably, the stopper further comprises: the rollers are screwed on the arc-shaped block, the rollers are divided into four rows, and a group of rubber belts are sleeved on each row of rollers;

when the annular brush moves, friction force can drive the rubber belt to drive the four groups of rollers to reciprocate, and meanwhile, the rubber belt drives the four groups of rollers to rotate, so that friction between the arc-shaped block and the porcelain bottle is avoided, and the annular brush moves up and down along the porcelain bottle more smoothly.

The beneficial effects of the invention are as follows:

1. the outer tube is pulled along the inner tube, adjust the overall length of inner tube and outer tube, make annular brush can touch the vase that is located the eminence, after the length adjustment, rotate the bolt, along with the bolt rotation, bolt tip extrusion inner tube, make inner tube and outer tube relative position by fixed, then through lifting inner tube and outer tube, make mount subassembly and annular brush be located vase one side, promote inner tube and outer tube, make mount subassembly and annular brush translate towards the vase, make the vase enter into in the annular brush through the opening, because the fiber silk is covered all around in the annular brush, enter into the vase in the annular brush and will extrude the fiber silk, make fiber silk deformation crooked, start the water pump, the water enters into in the arc pipeline through water pipe, the inner tube, the hose enters into on the vase through a plurality of through-holes in proper order, the while pulling inner tube and outer tube, make annular brush reciprocate along the vase, and the continuous friction vase of fiber silk in the annular brush, thereby realize the clearance to the vase, compare with prior art, because inner tube and outer tube overall length are adjustable, make annular brush can clear up the vase that is in different altitudes and different length, make the annular brush work, the clearance is convenient for the vase is convenient to assemble the vase, and the annular brush is cleaned up, and the cleaning efficiency is more high for the annular brush is convenient.

2. The double-thread screw is rotated, along with the rotation of the double-thread screw, the two groups of bearing plates and the two groups of arc-shaped rails move in opposite directions, the two groups of arc-shaped rails drive the two groups of movable plates to move in opposite directions along the corresponding guide posts, the movable plates drive the first movable plate to slide along the inclined sliding groove on the brush handle of the brush body, and the first movable plate presses the groove wall of the inclined sliding groove, so that the brush handle of the brush body moves along the first rectangular sliding groove towards the porcelain bottle, the extrusion force of the fiber yarn and the porcelain bottle on the brush body is increased along with the movement of the brush body, and the cleaning efficiency of the brush body to the porcelain bottle is ensured.

3. The electric putter promotes the arc strip, and the arc strip drives two sets of round pins and slides along two sets of slant arc grooves to round pin axle extrusion slant arc groove's cell wall makes two sets of limit piece remove towards the vase, until the arcwall face and the laminating of vase outer lane of stopper one end, because the stopper centre gripping is in the vase both sides, plays the guide effect to annular brush, guarantees that annular brush radially removes along the vase, thereby guarantees that the dirty on the vase is cleaned up.

4. The screw rod is rotated, along with the rotation of the screw rod, the arc-shaped block moves towards the direction of the porcelain bottle, so that the distance between the arc-shaped block and the porcelain bottle is shortened, the distance difference between the small outer diameter of the porcelain bottle is made up, the end part of the arc-shaped block can be attached to the porcelain bottle, and the porcelain bottle cleaning device can clean porcelain bottles with different outer diameters.

Drawings

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

FIG. 1 is a schematic diagram of the structure of the present invention.

Fig. 2 is an enlarged view at a in fig. 1.

FIG. 3 is a schematic view of the annular brush of the present invention.

FIG. 4 is a schematic view showing the assembly of the brush holder and the fixing frame according to the present invention.

FIG. 5 is a schematic view of a brush holder of the present invention in combination with a cross-sectional mount assembly.

Fig. 6 is a schematic view showing the combination of the brush holder, the reciprocating screw, the sliding plate and the driving shaft.

FIG. 7 is a schematic view showing the combination of the brush holder and the holder body according to the present invention.

Fig. 8 is a schematic view in partial cross-section of a guide mechanism of the present invention.

In the figure: 1. an inner tube; 2. an outer tube; 3. a bolt; 4. a water pipe; 5. a mount assembly; 6. an annular brush; 7. an arc-shaped pipe; 8. a hose; 601. a brush holder; 6011. a first rectangular chute; 6012. a spiral chute; 6013. an arc chute; 602. a brush body; 6021. an inclined chute; 603. a guide post; 604. a movable plate; 6041. the second rectangular chute; 6042. a first shaft; 605. an arc-shaped rail; 606. a receiving plate; 607. a double-thread screw; 501. a frame body; 5011. a roller; 502. a reciprocating screw; 503. a sliding plate; 504. a slide bar; 505. a drive shaft; 506. a guide mechanism; 5061. an arc-shaped strip; 5062. an electric push rod; 5063. a pin shaft; 5064. a limiting block; 5065. oblique arc grooves; 641. a bearing frame; 642. a second shaft; 643. an arc-shaped block; 644. a screw; 645. a roller; 646. a rubber belt.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Embodiment one: as shown in fig. 1 and fig. 2, the cleaning device for electrical equipment according to the embodiment of the invention comprises an inner pipe 1, wherein an outer pipe 2 is sleeved outside the inner pipe 1, a bolt 3 is screwed on the outer pipe 2, the lower end of the inner pipe 1 is connected with a water pipe 4, the upper end of the inner pipe 1 is provided with a fixing frame assembly 5, an annular brush 6 is arranged in the fixing frame assembly 5, an arc-shaped pipe 7 is fixedly arranged on the annular brush 6, the middle part of the arc-shaped pipe 7 is connected with a hose 8, a plurality of groups of through holes are formed in the inner ring of the arc-shaped pipe 7 at equal angles, and one end of the hose 8 is connected with the inner pipe 1.

Specifically, mount subassembly 5 and annular brush 6 are the cyclic annular body structure that has the open-ended, open-ended bore slightly is greater than the external diameter of required cleaning vase, water pipe 4 connects the water pump, when needs wash the vase, at first, stimulate outer tube 2 along inner tube 1, adjust the total length of inner tube 1 and outer tube 2, make annular brush 6 can touch the vase that is located the eminence, after the length adjustment, rotate bolt 3, along with bolt 3 rotation, bolt 3 tip extrusion inner tube 1, make inner tube 1 and outer tube 2 relative position by fixed, then through lifting inner tube 1 and outer tube 2, make mount subassembly 5 and annular brush 6 be located vase one side, in promotion inner tube 1 and outer tube 2, make mount subassembly 5 and annular brush 6 translate towards the vase, make the vase enter into annular brush 6 through the opening, because the vase that is covered with all around in annular brush 6 will extrude the cellosilk, make the cellosilk deformation crooked, start the water pump, water pipe 4, inner tube 1, 8 enter into arc pipeline 7 in, finally spray at the same time through a plurality of group's through the through-hole on porcelain, make inner tube 1 and outer tube 2, make the annular brush 1 and 2 can be difficult to realize the clearance with the annular brush 6 is high with the annular brush that the annular brush is in order, the clearance is difficult to realize with the annular brush is in the annular brush 6, the clearance is different height is difficult to the annular brush is realized, the clearance is different with the annular brush is difficult to realize, the clearance is difficult to be equipped with the annular brush is difficult to the annular brush 6, and is convenient to be equipped with the annular brush is difficult to be equipped with the annular brush 6.

As shown in fig. 2 and 3, the mount assembly 5 includes: the support body 501, support body 501 fixed connection inner tube 1, annular brush 6 includes: the brush holder 601, in the brush holder 601 rotary connection support body 501, a plurality of groups of brush bodies 602 of equiangular setting on the brush holder 601, eight groups of guide posts 603 of symmetry setting on both sides about the brush holder 601, the fly leaf 604 of slip joint guide post 603, arc pipeline 7 welds on fly leaf 604, the arc rail 605 of welding on fly leaf 604 outer circle, the adapting plate 606 of slip joint arc rail 605, and the double screw lead 607 of spiro union adapting plate 606, double screw lead 607 connects soon on the support body 501, a plurality of groups of first rectangle spout 6011 are offered to the angle on the brush holder 601, a plurality of groups of second rectangle spout 6041 are offered on the brush handle of brush body 602 to the brush handle of brush body, a plurality of groups of second rectangle spout 6041 are offered to the fly leaf 604 equiangular setting on the fly leaf 604, the brush handle of brush body 602 is pegged graft second rectangle spout 6041, set up a first axle 6042 in the second rectangle spout 6041, a first axle 6042 slip joint slant spout 6021.

Specifically, when the annular brush 6 moves up and down along the porcelain bottle, the frame 501 and the brush holder 601 and the plurality of groups of brush bodies 602 move up and down along the diameter of the porcelain bottle, the cleaning of the porcelain bottle is realized through the brush bodies 602, when the outer diameter of the porcelain bottle is smaller than the caliber of the opening, the porcelain bottle is positioned in the brush holder 601, fiber wires on the brush bodies 602 are limited by extrusion force of the porcelain bottle, so that the brush bodies 602 clean dirt on the porcelain bottle, time and labor are wasted, and cleaning efficiency of the porcelain bottle is affected, therefore, when the porcelain bottle with smaller outer diameter is cleaned, the double-threaded screw 607 is rotated, along with the rotation of the double-threaded screw 607, the two groups of bearing plates 606 move in opposite directions along with the two groups of arc-shaped rails 605, the two groups of arc-shaped rails 605 drive the two groups of movable plates 604 to move in opposite directions along the corresponding guide posts 603, the movable plates 604 drive the shaft one 6042 to slide along the oblique chute 6021 on the brush body 602, and the shaft one 6042 extrudes the wall of the oblique chute 6021, so that the extrusion force of the brush body 602 moves along the first rectangular chute 6011, along with the first rectangular chute 602, and the brush body 602 moves along with the brush body 602, thereby ensuring the cleaning efficiency of the brush wires 602 and the porcelain bottle.

As shown in fig. 4 to 6, the mount assembly 5 further includes: the reciprocating screw 502, the reciprocating screw 502 connects in the support body 501 soon, the sliding plate 503 of suit on reciprocating screw 502, two sets of slide bars 504 of sliding connection sliding plate 503, slide bars 504 fixed mounting is in the support body 501 to and connect the drive shaft 505 on sliding plate 503 soon, sets up spiral spout 6012 on the brush holder 601 outer lane, drive shaft 505 rotates and connects spiral spout 6012.

Specifically, when the annular brush 6 moves up and down along the porcelain bottle, the porcelain bottle is rubbed by the fiber wires on the brush body 602, so that the cleaning of dirt on the porcelain bottle is realized, however, because the brush holder 601 is of an opening type design, the brush body 602 does not exist at the opening of the brush holder 601, so that the porcelain bottle part corresponding to the opening of the brush holder 601 cannot be cleaned by the brush body 602, when the brush body 602 carries out up and down friction cleaning on the porcelain bottle, the reciprocating screw 502 is driven to rotate sequentially by the brush body 602, along with the rotation of the reciprocating screw 502, the sliding plate 503 moves up and down along the sliding rod 504, and meanwhile, the sliding plate 503 drives the driving shaft 505 to roll along the spiral chute 6012, and the driving shaft 505 extrudes the groove wall of the spiral chute 6012, so that the brush holder 601 rotates along the inner ring of the brush holder 501, the brush holder 601 drives a plurality of groups of brush bodies 602 to rotate, and the driving shaft 505 moves back and forth along the spiral chute 6012, so that the porcelain bottle part corresponding to the opening of the brush holder 601 can be cleaned by the brush body 602, and the porcelain bottle can be cleaned more comprehensively.

As shown in fig. 7, two sets of arc-shaped sliding grooves 6013 are formed in the outer ring of the brush holder 601, a plurality of sets of rollers 5011 are rotatably connected to the holder 501 at equal angles, and the rollers 5011 are rotatably connected to the arc-shaped sliding grooves 6013.

Specifically, when the brush holder 601 rotates along the inner ring of the holder body 501, the roller 5011 on the holder body 501 will roll along the arc chute 6013, and the roller 5011 and the arc chute 6013 are set, so that the brush holder 601 rotates more smoothly, and meanwhile, the brush holder 601 rotates in a guiding manner.

As shown in fig. 4, 7 and 8, the fixing frame assembly 5 further includes: the guiding mechanism 506, the guiding mechanism 506 plays a role in guiding the movement of the device, and the guiding mechanism 506 includes: arc strip 5061, arc strip 5061 activity grafting support body 501, electric putter 5062 piston rod tip connects arc strip 5061 middle part soon, electric putter 5062 cylinder body afterbody connects support body 501 soon, two sets of round pin axles 5063 of symmetry setting at arc strip 5061 both ends to and stopper 5064, stopper 5064 set up slant arc groove 5065, round pin axle 5063 sliding connection slant arc groove 5065, two sets of rectangle guiding holes are seted up to symmetry on the support body 501 outer lane, stopper 5064 activity grafting rectangle guiding hole.

Specifically, the stopper 5064 is an arc surface towards one end face of the porcelain bottle, the annular brush 6 moves up and down along the porcelain bottle, the inner tube 1 and the outer tube 2 are manually pulled, the direction of the upper force of the inner tube 1 and the upper force of the outer tube 2 cannot be kept parallel to the radial direction of the porcelain bottle due to the manual action, the annular brush 6 can be inclined in the moving process, the porcelain bottle is enabled to be uneven due to the fact that friction force of a plurality of groups of brush bodies 602 is insufficient, the region of the porcelain bottle with small friction force can be cleaned up, therefore, after the porcelain bottle is located in the annular brush 6, the electric push rod 5062 pushes the arc strip 5061, the arc strip 5061 drives the two groups of pins 5063 to slide along the two groups of inclined arc grooves 5065, and the pins 5063 squeeze the groove walls of the inclined arc grooves 5065, so that the two groups of the stopper 5064 move towards the porcelain bottle until the arc surface at one end of the stopper 5064 is attached to the outer ring of the porcelain bottle, the stopper 5064 is clamped on two sides of the porcelain bottle, the annular brush 6 plays a guiding role, the annular brush 6 is ensured to move radially along the porcelain bottle, and the dirt on the porcelain bottle is ensured to be cleaned up.

As shown in fig. 8, the stopper 5064 includes: the bearing rack 641, the oblique arc groove 5065 is formed on the bearing rack 641, two groups of shafts II 642 inserted on the bearing rack 641, an arc block 643 fixedly connected with the shafts II 642, and a screw 644 screwed on the bearing rack 641, wherein one end of the screw 644 is screwed on the arc block 643.

Specifically, the extrusion force of the pin shaft 5063 extruding the oblique arc groove 5065 acts on the bearing frame 641, the bearing frame 641 pushes the screw 644 and the arc block 643 to move towards the porcelain bottle until the end part of the arc block 643 is attached to the porcelain bottle, when the porcelain bottle with smaller outer diameter is cleaned, if the distance of the two groups of limiting blocks 5064 moving towards each other cannot be adjusted, the end parts of the two groups of limiting blocks 5064 cannot be attached to the porcelain bottle, the screw 644 is rotated, and the arc block 643 moves towards the direction of the porcelain bottle along with the rotation of the screw 644, so that the distance of the arc block 643 is shortened, the distance difference that the outer diameter of the porcelain bottle is reduced is made up, the end part of the arc block 643 is ensured to be attached to the porcelain bottle, and the device can clean porcelain bottles with different outer diameters.

Embodiment two: as shown in fig. 8, in comparative example one, another embodiment of the present invention is: the stopper 5064 further includes: a plurality of groups of rollers 645, the rollers 645 are screwed on the arc-shaped block 643, the plurality of groups of rollers 645 are divided into four rows, and a group of rubber belts 646 are sleeved on each row of rollers 645.

Specifically, after two sets of arc piece 643 tip laminating to the vase, at annular brush 6 along vase reciprocates the in-process, the arcwall face of arc piece 643 tip will slide along the vase outer lane, because arc piece 643 tip and vase outer lane slip can produce the friction, not only hinder annular brush 6's removal, can bring wearing and tearing for arc piece 643 and vase simultaneously, thereby arc piece 643 and vase life has been reduced, therefore when arc piece 643 laminating the vase, four sets of rubber strips 646 of arc piece 643 tip will extrude the vase, when annular brush 6 removes, frictional force can drive rubber strip 646 and reciprocate the transmission around four sets of rollers 645, rubber strip 646 drives four sets of rollers 645 simultaneously and rotates, thereby not only avoid arc piece 643 and vase to produce friction, annular brush 6 reciprocates more smoothly along the vase simultaneously.

The working principle is that firstly, the outer tube 2 is pulled along the inner tube 1, the total length of the inner tube 1 and the outer tube 2 is regulated, the annular hairbrush 6 can touch the porcelain bottle positioned at the high position, after the length is regulated, the bolt 3 is rotated, the end part of the bolt 3 presses the inner tube 1 along with the rotation of the bolt 3, the relative position of the inner tube 1 and the outer tube 2 is fixed, then the fixing frame component 5 and the annular hairbrush 6 are positioned at one side of the porcelain bottle by lifting the inner tube 1 and the outer tube 2, the fixing frame component 5 and the annular hairbrush 6 are translated towards the porcelain bottle when the inner tube 1 and the outer tube 2 are pushed, the porcelain bottle enters the annular hairbrush 6 through the opening, the electric push rod 5062 pushes the arc-shaped strip 5061, the arc-shaped strip 5061 drives the two groups of pin shafts 5063 to slide along the two groups of oblique arc-shaped grooves 5065, the pin shafts 5063 press the groove walls of the oblique arc-shaped grooves 5065, and the extrusion force acts on the bearing frame 641, the bearing frame 641 pushes the screw 644 to move towards the porcelain bottle together with the arc-shaped block 643 until the four groups of rubber belts 646 at the end part of the arc-shaped block 643 squeeze the porcelain bottle, the inner tube 1 and the outer tube 2 are pulled to enable the annular brush 6 to move up and down along the porcelain bottle, the motor drives the reciprocating screw 502 to rotate, the sliding plate 503 reciprocates up and down along the sliding rod 504 along with the rotation of the reciprocating screw 502, the sliding plate 503 drives the driving shaft 505 to roll along the spiral sliding groove 6012, and the driving shaft 505 presses the groove wall of the spiral sliding groove 6012 to enable the brush frame 601 to rotate along the inner ring of the frame body 501, the brush frame 601 drives the brush bodies 602 to rotate, and the driving shaft 505 reciprocates back and forth along the spiral sliding groove 6012 to enable the brush frame 601 to continuously rotate back and forth, and dirt on the porcelain bottle is cleaned through fiber silk friction on the brush bodies 602.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (3)

1. An electrical equipment cleaning device comprising an inner tube (1), characterized in that: the novel water heater is characterized in that an outer tube (2) is sleeved outside the inner tube (1), a bolt (3) is connected to the outer tube (2) in a screwed mode, the lower end of the inner tube (1) is connected with a water tube (4), a fixing frame assembly (5) is arranged at the upper end of the inner tube (1), an annular hairbrush (6) is arranged in the fixing frame assembly (5), an arc-shaped pipeline (7) is fixedly installed on the annular hairbrush (6), and a hose (8) is connected to the middle of the arc-shaped pipeline (7);

a plurality of groups of through holes are formed in the inner ring of the arc-shaped pipeline (7) at equal angles, and one end of the hose (8) is connected with the inner pipe (1);

the mount assembly (5) comprises:

the frame body (501), the said frame body (501) connects the said inner tube (1) fixedly;

the annular brush (6) comprises:

a brush holder (601), wherein the brush holder (601) is rotatably connected in the holder body (501);

a plurality of groups of brush bodies (602) arranged on the brush frame (601) at equal angles;

eight groups of guide posts (603) are symmetrically arranged on the upper side and the lower side of the brush frame (601);

a movable plate (604) connected with the guide post (603) in a sliding way, wherein the arc-shaped pipeline (7) is welded on the movable plate (604);

an arc-shaped rail (605) welded on the outer ring of the movable plate (604);

a receiving plate (606) slidably connected to the arcuate rail (605);

the method comprises the steps of,

the double-thread lead screw (607) is in threaded connection with the bearing plate (606), the double-thread lead screw (607) is in threaded connection with the frame body (501), a plurality of groups of first rectangular sliding grooves (6011) are formed in the brush frame (601) in an angle mode, a brush handle of the brush body (602) is in sliding connection with the first rectangular sliding grooves (6011), an inclined sliding groove (6021) is formed in the brush handle of the brush body (602), a plurality of groups of second rectangular sliding grooves (6041) are formed in the movable plate (604) in an equiangular mode, the brush handle of the brush body (602) is connected with the second rectangular sliding grooves (6041) in an inserting mode, a first shaft (6042) is arranged in the second rectangular sliding grooves (6041), and the first shaft (6042) is in sliding connection with the inclined sliding grooves (6021);

the mount assembly (5) further comprises:

a reciprocating screw (502), wherein the reciprocating screw (502) is screwed in the frame body (501);

a sliding plate (503) sleeved on the reciprocating screw rod (502);

two groups of sliding rods (504) which are connected with the sliding plate (503) in a sliding way, wherein the sliding rods (504) are fixedly arranged in the frame body (501);

the method comprises the steps of,

a drive shaft (505) screwed to the slide plate (503);

a guide mechanism (506), the guide mechanism (506) serving to guide movement of the device;

the guide mechanism (506) includes:

an arc-shaped strip (5061), wherein the arc-shaped strip (5061) is movably inserted into the frame body (501);

the end part of a piston rod of the electric push rod (5062) is screwed with the middle part of the arc-shaped strip (5061), and the tail part of a cylinder body of the electric push rod (5062) is screwed with the frame body (501);

two groups of pin shafts (5063) symmetrically arranged at two ends of the arc-shaped strip (5061);

the method comprises the steps of,

the limiting block (5064), wherein the limiting block (5064) is provided with an inclined arc groove (5065), and the pin shaft (5063) is connected with the inclined arc groove (5065) in a sliding manner;

set up spiral spout (6012) on brush yoke (601) outer lane, drive shaft (505) rotate and connect spiral spout (6012), offer two sets of arc spouts (6013) on brush yoke (601) outer lane, equiangular rotation connects a plurality of groups gyro wheel (5011) on support body (501), gyro wheel (5011) rotate and connect arc spout (6013), two sets of rectangle guiding holes are seted up to symmetry on support body (501) outer lane, stopper (5064) activity grafting rectangle guiding hole.

2. An electrical equipment cleaning device according to claim 1, wherein: the stopper (5064) includes:

a receiving frame (641), wherein the oblique arc groove (5065) is arranged on the receiving frame (641);

two groups of shafts II (642) inserted on the bearing frame (641);

an arc-shaped block (643) fixedly connected with the second shaft (642);

the method comprises the steps of,

the screw (644) is in threaded connection with the bearing frame (641), and one end of the screw (644) is in threaded connection with the arc-shaped block (643).

3. An electrical equipment cleaning device according to claim 2, wherein: the stopper (5064) further includes:

the rollers (645) are screwed on the arc-shaped block (643), the rollers (645) are divided into four rows, and a group of rubber belts (646) are sleeved on each row of rollers (645).