CN114190810A

CN114190810A - Shutter flabellum detects erection equipment

Info

Publication number: CN114190810A
Application number: CN202111508702.7A
Authority: CN
Inventors: 苏云
Original assignee: Individual
Current assignee: Chuangye Heima Jiangsu Technology Co ltd
Priority date: 2021-12-10
Filing date: 2021-12-10
Publication date: 2022-03-18
Anticipated expiration: 2041-12-10
Also published as: CN114190810B

Abstract

The invention belongs to the field of doors and windows, and particularly relates to shutter fan blade detection and installation equipment which comprises an outer annular shell, wherein an inner annular shell with fixed clamping and hardness detection functions is arranged in the outer annular shell, and a multifunctional claw with installation, cleaning and auxiliary clamping functions is connected below the inner annular shell. The invention can clamp the louver blades with different sizes by rotating and tightening the inner multifunctional claw through the outer annular shell, simultaneously detect the hardness and the anti-distortion capability of the blades, clean the installation positions of the louver blades with different sizes through the shaft side cleaning block and the hole inside cleaning block below the multifunctional claw, avoid the installation error caused by fine dust, and can drive the rotation of the blades to install more quickly through the rotation of the outer annular shell.

Description

Shutter flabellum detects erection equipment

Technical Field

The invention belongs to the field of doors and windows, and particularly relates to shutter blade detection and installation equipment.

Background

The shutter is a soft decoration for a new family room, and is basically used for decorating newly-built buildings. The shutter blocks external sight lines in the concave-convex direction of the blades, so that the sunlight is collected, the external sight lines from top to bottom are blocked at night, if the convex surfaces of the blades face indoors, shadows cannot be shown outdoors, the shutter is clean and safe, the cleaning is convenient, and the shutter can be cleaned only by using cleaning cloth at ordinary times; the shutter can also effectively block the incidence of ultraviolet rays and protect furniture from fading due to the influence of the ultraviolet rays, and compared with a curtain, the shutter with flexibly adjustable blades has the function of being lacked by the curtain; in the aspect of sun shading, the louver can resist ultraviolet radiation and can adjust indoor light; in the aspect of ventilation, the fixed installation of the louver and the thick texture can comfortably enjoy the cool wind without other concerns; the curtain flutters when the indoor life is hidden, and the household privacy is ensured by the laminated design of the louver layers; in addition, the louver has one more window when being completely closed, can play the roles of sound insulation and heat insulation, simultaneously, the louver is free of welding and integrated with an assembly process, is simple to manufacture, and can be directly cut on a construction site and assembled and installed on the site after being perforated by full-automatic numerical control equipment. Therefore, more and more families and office buildings select shutters with various sizes during decoration, and it is imperative to design equipment for rapidly installing and detecting blades of the shutters.

Disclosure of Invention

The invention aims to provide shutter fan blade detection and installation equipment aiming at the problems in the prior art. The problem of the hardness and the antitorque ability of detecting the flabellum is solved, can also clean up the installation department of the shutter flabellum of unidimensional not through the axle side of multi-functional claw below cleans the piece and downthehole piece that cleans, avoids tiny dust to lead to the installation mistake to appear, can also carry out faster installation through the rotation of the rotatory drive flabellum of outer annular shell.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a shutter flabellum detects erection equipment, includes outer annular shell, the inside inlayer annular shell that has fixed centre gripping and hardness detection function that is equipped with of outer annular shell, the below of inlayer annular shell is connected with the installation and washs and supplementary clamping function's multi-functional claw.

Preferably, two upper and lower portions of the inner side wall of the outer layer annular shell are respectively provided with a groove, wherein the annular groove on the lower side is a first annular groove, a magnet with threads is arranged in the first annular groove, and the annular groove on the upper side is a second annular groove.

Preferably, the outer side wall of the inner annular shell is provided with a limit ring corresponding to the second annular groove, the outer side wall of the inner annular shell is provided with threads corresponding to the threads of the magnet in the first annular groove, four clamping mechanisms are annularly arranged above the inner side wall of the inner annular shell, four air pressure boxes are annularly arranged below the inner side wall of the inner annular shell and at the same horizontal line position of the threads, each air pressure box is provided with a clamping mechanism above, a first channel and a second channel are arranged in the side wall of the inner annular shell, one end of the first channel is connected with two first through holes, the other end of the first channel is connected with the air pressure box, one end of the second channel is connected with the air pressure box, the other end of the second channel is connected with the multifunctional claw below, a sealing space is arranged in each air pressure box, and a piston plate which has magnetism and can be attracted by the magnet is slidably connected in the sealing space, the side wall of the air pressure box is internally provided with a third channel, one end of the third channel is connected with a second through hole, the other end of the third channel is connected with a third through hole, the third channel is communicated with the sealed space through the second through hole, the third channel is communicated with one end of a rubber tube through the third through hole, the rubber tube is positioned below the air pressure box, a first filter screen is arranged at the joint of the air pressure box and the first channel, and a second filter screen is arranged at the joint of the air pressure box and the second channel.

Preferably, the clamping mechanism comprises a piston, a movable block is connected in the piston in a sliding mode, one end of the movable block is connected with the first through hole, the other end of the movable block is connected with a rotating shaft capable of rotating in multiple directions, and the rotating shaft is fixedly connected with the clamping block to complete clamping action.

Preferably, the multifunctional claw comprises a first telescopic inner rod capable of sliding up and down in the second channel, one end of a second telescopic inner rod is fixedly connected below the first telescopic inner rod, the other end of the second telescopic inner rod is connected in one end of a first telescopic outer rod in a sliding mode, one end of a third telescopic inner rod is connected at the other end of the first telescopic outer rod in a sliding mode, a block is cleaned in a fixed connecting hole at the other end of the third telescopic inner rod, a connecting rod is fixedly arranged above the middle of the first telescopic outer rod in a position fixing mode, the connecting rod is fixedly connected with the first telescopic outer rod and the second telescopic outer rod, one end of the second telescopic outer rod is connected with a fourth telescopic inner rod in a sliding mode, the other end of the second telescopic outer rod is connected with the rubber tube, and the block is cleaned on the side of a fixed connecting shaft of the fourth telescopic inner rod. A fourth channel is arranged in the first telescopic inner rod and the second telescopic inner rod, a telescopic channel first telescopic channel and a telescopic channel second telescopic channel are respectively arranged on two sides in the first telescopic outer rod, the middle parts of the first telescopic inner rod and the second telescopic inner rod are connected through a fourth through hole, a fifth channel is arranged on the inner side of the third telescopic inner rod, a sixth channel is arranged in the in-hole cleaning block, a reset groove is arranged on the in-hole cleaning block, a first spring is arranged in the reset groove, one end of the first spring is connected with the reset groove, the other end of the first spring is connected with the blocking block, a fifth through hole is arranged in the middle of the blocking block, a plurality of sixth through holes are arranged in one side of the in-hole cleaning block close to the third telescopic inner rod, a hairbrush is arranged on one side of the in-hole cleaning block close to the third telescopic inner rod, a seventh through hole is arranged in the second telescopic outer rod, one end of the seventh through hole is connected with the rubber pipe, and the other end is connected with a third telescopic pipe, sliding connection fourth flexible interior pole in the third flexible pipeline, be close to in the fourth flexible interior pole the flexible pipeline of third one side is equipped with the eighth through-hole, the flexible pipeline of eighth through-hole connection fourth, be close to in the flexible pipeline of fourth eighth through-hole one side is equipped with the second spring, second spring one end is connected on the flexible interior pole of fourth, and the extrusion piece is connected to the other end, be equipped with the seventh passageway in the extrusion piece, the seventh passageway is kept away from second spring one side symmetry and is equipped with the ninth through-hole, be equipped with the eighth passageway in the axle side cleaning piece, keep away from in the axle side cleaning piece the flexible outer pole one side of second is equipped with a plurality of tenth through-holes with eighth access connection, the axle side cleaning piece is kept away from flexible outer pole one side of second is equipped with the brush.

Has the advantages that:

1. the invention can clamp shutter fan blades with different sizes by rotating and tightening the inner multifunctional claw through the outer annular shell, and simultaneously detect the hardness and the anti-distortion capability of the fan blades;

2. the mounting positions of the shutter blades with different sizes can be cleaned through the shaft side cleaning block and the hole inner cleaning block below the multifunctional claw, so that the mounting errors caused by fine dust are avoided;

3. the fan blade can be installed more quickly by rotating the outer annular shell to drive the fan blades to rotate.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

FIG. 4 is an enlarged view of FIG. 3 at B;

FIG. 5 is an enlarged view of FIG. 3 at C;

FIG. 6 is an enlarged view of FIG. 3 at D;

fig. 7 is an enlarged view of fig. 3 at E.

In the figure, the outer layer annular shell 1, the first annular groove 101, the magnet 102, the second annular groove 103, the multifunctional claw 2, the first telescopic inner rod 201, the connecting rod 202, the fourth telescopic inner rod 203, the third telescopic inner rod 204, the shaft side cleaning block 205, the hole cleaning block 206, the second telescopic inner rod 207, the first telescopic outer rod 208, the second telescopic outer rod 209, the fourth channel 210, the first telescopic channel 211, the fourth through hole 212, the second telescopic channel 213, the fifth channel 214, the sixth channel 215, the first spring 216, the blocking block 217, the fifth through hole 218, the brush 219, the sixth through hole 220, the reset groove 221, the seventh through hole 222, the fourth telescopic channel 223, the third telescopic channel 224, the eighth through hole 225, the seventh channel 226, the ninth through hole 227, the extrusion block 228, the eighth channel 229, the tenth through hole 230, the second spring 231, the inner layer annular shell 3, the limit ring 301, the thread 302, the first channel 303, the first telescopic inner layer annular shell, the second telescopic inner rod 203, the fourth telescopic inner rod 204, the fourth telescopic channel 213, the fifth through hole, the sixth through hole 212, the sixth through hole 215, the sixth through hole 227, the sixth through hole 220, the sixth through hole 227, the sixth through hole 220, the sixth through hole 227, the sixth through hole, the fourth through hole, the sixth through hole, the fourth through hole, and the fourth through hole 227, and the fourth through hole, The device comprises a first through hole 304, a piston 305, a movable block 306, a rotating shaft 307, a clamping block 308, an air pressure box 309, a sealed space 310, a piston plate 311, a first filter screen 312, a second channel 313, a second through hole 314, a second filter screen 315, a third channel 316, a third through hole 317 and a rubber tube 318.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

With reference to fig. 1-7, a device for detecting and installing blades of a louver comprises an outer annular shell 1, an inner annular shell 3 with fixing clamping and hardness detecting functions is arranged inside the outer annular shell 1, and a multifunctional claw 2 with installing, cleaning and auxiliary clamping functions is connected below the inner annular shell 3.

Furthermore, two grooves are respectively arranged on the upper portion and the lower portion of the inner side wall of the outer-layer annular shell 1, wherein the annular groove on the lower side is a first annular groove 101, a magnet 102 with threads is arranged in the first annular groove 101, and the annular groove on the upper side is a second annular groove 103.

Furthermore, the outer side wall of the inner annular shell 3 is provided with a limit ring 301 corresponding to the second annular groove 103, the outer side wall of the inner annular shell 3 is provided with threads 302 corresponding to the threads of the magnets 102 in the first annular groove 101, four clamping mechanisms are annularly arranged above the inner side wall of the inner annular shell 3, four air pressure boxes 309 are annularly arranged below the inner side wall of the inner annular shell 3 at the same horizontal line position with the threads 302, each air pressure box 309 is provided with a clamping mechanism, the side wall of the inner annular shell 3 is provided with a first channel 303 and a second channel 313, one end of the first channel 303 is connected with two first through holes 304, the other end is connected with the air pressure box 309, one end of the second channel 313 is connected with the air pressure box 309, the other end is connected with the multifunctional claw 2 below, each air pressure box 309 is provided with a sealed space 310, a piston plate 311 which can be attracted by the magnets 102 is slidably connected in the sealed space 310, a third channel 316 is arranged in the side wall of the air pressure box 309, one end of the third channel 316 is connected with the second through hole 314, the other end of the third channel 316 is connected with a third through hole 317, the third channel 316 is communicated with the sealed space 310 through the second through hole 314, the third channel 316 is communicated with one end of a rubber tube 318 through the third through hole 317, the rubber tube 318 is positioned below the air pressure box 309, a first filter screen 312 is arranged at the joint of the air pressure box 309 and the first channel 303, and a second filter screen 315 is arranged at the joint of the air pressure box 309 and the second channel 313.

Further, the clamping mechanism comprises a piston 305, a movable block 306 is slidably connected in the piston 305, one end of the movable block 306 is connected with the first through hole 304, the other end of the movable block 306 is connected with a rotating shaft 307 capable of rotating in multiple directions, and the rotating shaft 307 is fixedly connected with a clamping block 308 to complete the clamping action.

Further, the multifunctional claw 2 comprises a first telescopic inner rod 201 capable of sliding up and down in the second channel 313, one end of a second telescopic inner rod 207 is fixedly connected below the first telescopic inner rod 201, the other end of the second telescopic inner rod 207 is slidably connected in one end of a first telescopic outer rod 208, one end of a third telescopic inner rod 204 is slidably connected to the other end of the first telescopic outer rod 208, a cleaning block 206 is fixedly connected in the other end of the third telescopic inner rod 204, a connecting rod 202 is fixedly arranged above the middle of the first telescopic outer rod 208, the connecting rod 202 is fixedly connected with the first telescopic outer rod 208 and a second telescopic outer rod 209, one end of the second telescopic outer rod 209 is slidably connected with the fourth telescopic inner rod 203, the other end of the second telescopic inner rod is connected with a rubber tube 318, and the shaft side cleaning block 205 is fixedly connected with the fourth telescopic inner rod 203. A fourth channel 210 is arranged in the first telescopic inner rod 201 and the second telescopic inner rod 207, a telescopic channel first telescopic channel 211 and a second telescopic channel 213 are respectively arranged at two sides in the first telescopic outer rod 208, the middle parts of the first telescopic inner rod and the second telescopic channel are connected by a fourth through hole 212, a fifth through hole 214 is arranged at the inner side of the third telescopic inner rod 204, a sixth channel 215 is arranged in the in-hole cleaning block 206, a reset groove 221 is arranged in the in-hole cleaning block 206, a first spring 216 is arranged in the reset groove 221, one end of the first spring 216 is connected with the reset groove 221, the other end of the first spring is connected with a blocking block 217, a fifth through hole 218 is arranged in the middle part of the blocking block 217, a plurality of sixth through holes 220 are arranged in the in one side, close to the third telescopic inner rod 204, of the in-hole cleaning block 216 is provided with a brush 219 close to the third telescopic inner rod 204, a seventh through hole 222 is arranged in the second telescopic outer rod 209, one end of the seventh through hole 222 is connected with a rubber tube 318, the other end of the seventh through hole is connected with a third telescopic tube 224, the fourth telescopic inner rod 203 is connected with the third telescopic inner rod 224 in a sliding mode, an eighth through hole 225 is formed in the fourth telescopic inner rod 203 and close to one side of the third telescopic pipe 224, the eighth through hole 225 is connected with the fourth telescopic pipe 223, a second spring 231 is arranged in the fourth telescopic pipe 223 and close to one side of the eighth through hole 225, one end of the second spring 231 is connected to the fourth telescopic inner rod 203, the other end of the second spring is connected with an extrusion block 228, a seventh channel 226 is arranged in the extrusion block 228, one side, far away from the second spring 231, of the seventh channel 226 is symmetrically provided with a ninth through hole 227, an eighth channel 229 is arranged in the shaft side cleaning block 205, one side, far away from the second telescopic outer rod 209, of the shaft side cleaning block 205 is connected with the eighth channel 229 to be provided with a plurality of tenth through holes 230, and one side, far away from the second telescopic outer rod 209, of the shaft side cleaning block 205 is provided with a brush 219.

Principle of operation

In the initial state, the piston plate 311 is located at the bottom of the sealed space 310 in the air pressure box 309, and the magnet 102 is located at the bottom of the first annular groove 101.

When the device starts to work, fan blades needing to be installed are placed in the inner hole of the inner annular shell 3, the hole cleaning block 206 of the multifunctional claw of the device is placed in the hole at the position of the louver frame, the device is started, the outer annular shell 1 starts to rotate, the magnet 102 in the first annular groove 101 moves upwards along the threads along with the rotation, the magnetic piston plate 311 in the sealed space 310 moves upwards under the influence of magnetic force, a part of air above the piston plate 311 in the sealed space 310 passes through the first filter screen 312 and then enters the first through hole 304 along the first channel 303 to push the movable block 306 towards the inner annular shell 3 along the piston 305 until the clamping blocks 308 in the 4 directions clamp the fan blades in the middle. The other part of the air passes through the second through hole 314, passes through the third channel 316, the third through hole 317, the rubber tube 318, the seventh through hole 222 and the third telescopic pipeline 224 to extrude the fourth telescopic inner rod 203 outwards until the extrusion block 228 abuts against the rotating shaft below the fan blade and is pushed out continuously, the extrusion block 228 is extruded into the fourth telescopic pipeline 223 until the ninth through hole 227 is communicated with the eighth channel 229, the air is blown out through the tenth through hole 230 to blow away the dust attached to the surface of the rotating shaft of the fan blade, and the brush 219 cleans the surface at the same time.

The air pressure below the piston plate 311 in the sealed space 310 is reduced, air is sucked into the air pressure box 309, as the sixth channel 215 is blocked, and meanwhile, the diameter of the second telescopic channel 213 is larger than that of the second channel 313 and larger than that of the first telescopic pipeline 211, according to the formula that the acting force is equal to the acting pressure multiplied by the acting area, the air in the second telescopic channel 213 is sucked away firstly, so that the third telescopic inner rod 204 moves into the second telescopic channel 213, until one end of the blocking block 217 close to the brush 219 is extruded on the inner side wall of the window frame hole and is pushed into the reset groove 221, the fifth through hole 218 is communicated with the sixth channel 215, the air in the hole is sucked with dust, small sand and other garbage, the brush 219 cleans the inner side wall of the hole simultaneously until the air pressure in the air pressure box 309 is balanced, and the blocking block 217 is ejected by the first spring 216 to block the sixth channel 215.

The piston plate 311 moves upwards in the sealed space 310 until the piston plate 311 moves above the second through hole 314, air sucks the fourth telescopic inner rod 203 inwards through the second through hole 314 via the third channel 316, the third through hole 317, the rubber tube 318, the seventh through hole 222 and the third telescopic pipeline 224, the brush 219 and the extrusion block 228 leave the surface of the rotating shaft of the blind window, and the second spring 231 rebounds the extrusion block 228 to block the eighth channel 229.

Meanwhile, the first telescopic inner rod 201 is sucked upwards until the cleaning block 206 in the hole is separated from the hole, then the third telescopic inner rod 204 and the second telescopic inner rod 207 are sucked into the first telescopic outer rod 208, the second telescopic outer rod 209 is driven in the first telescopic outer rod 208 to move and recover towards the first telescopic inner rod 201, the blades of the louver are squeezed into the hole of the louver frame, the louver frame is rotated and rapidly installed, the outer annular shell 1 rotates reversely, the blades are separated from the blades, and the louver frame returns to the initial state.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a shutter flabellum detects erection equipment, includes outer annular shell (1), its characterized in that: the outer annular shell (1) is internally provided with an inner annular shell (3) with fixed clamping and hardness detection functions, and the lower part of the inner annular shell (3) is connected with a multifunctional claw (2) with installation, cleaning and auxiliary clamping functions.

2. The apparatus of claim 1, wherein: two parts respectively are equipped with a recess about outer annular shell (1) inside wall, and wherein the annular groove of below is first annular groove (101), be equipped with threaded magnet (102) in first annular groove (101), the annular groove of top is second annular groove (103).

3. The apparatus of claim 1, wherein: the outer side wall of the inner-layer annular shell (3) is provided with a limiting ring (301) corresponding to the second annular groove (103), the outer side wall of the inner-layer annular shell (3) is provided with threads (302) corresponding to the threads of the magnets (102) in the first annular groove (101), four clamping mechanisms are annularly arranged above the inner side wall of the inner-layer annular shell (3), four air pressure boxes (309) are annularly arranged below the inner side wall of the inner-layer annular shell (3) and at the same horizontal line position of the threads (302), each air pressure box (309) is provided with a clamping mechanism above the air pressure box (309), a first channel (303) and a second channel (313) are arranged in the side wall of the inner-layer annular shell (3), one end of the first channel (303) is connected with two first through holes (304), the other end of the first channel is connected with the air pressure boxes (309), one end of the second channel (313) is connected with the air pressure boxes (309), the other end is connected with the lower multifunctional claw (2), a sealed space (310) is arranged in each air pressure box (309), the sealed space (310) is connected with a piston plate (311) which can be attracted by the magnet (102) in a sliding way, a third channel (316) is arranged in the side wall of the air pressure box (309), one end of the third channel (316) is connected with the second through hole (314), the other end is connected with the third through hole (317), the second through hole (314) communicating a third passage (316) with the sealed space (310), the third through hole (317) communicates the third passage (316) with one end of a rubber tube (318), the rubber tube (318) is positioned below the air pressure box (309), a first filter screen (312) is arranged at the joint of the air pressure box (309) and the first channel (303), and a second filter screen (315) is arranged at the joint of the air pressure box (309) and the second channel (313).

4. The apparatus of claim 3, wherein: the clamping mechanism comprises a piston (305), a movable block (306) is connected in the piston (305) in a sliding mode, one end of the movable block (306) is connected with the first through hole (304), the other end of the movable block is connected with a rotating shaft (307) capable of rotating in multiple directions, and the rotating shaft (307) is fixedly connected with a clamping block (308) to complete clamping.

5. The apparatus of claim 3, wherein: the multifunctional claw (2) comprises a first telescopic inner rod (201) which can slide up and down in a second channel (313), one end of a second telescopic inner rod (207) is fixedly connected below the first telescopic inner rod (201), the other end of the second telescopic inner rod (207) is connected in one end of a first telescopic outer rod (208) in a sliding manner, the other end of the first telescopic outer rod (208) is connected with one end of a third telescopic inner rod (204) in a sliding manner, a cleaning block (206) is arranged in a connecting hole which is fixedly connected with the other end of the third telescopic inner rod (204), a connecting rod (202) is fixedly arranged above the middle of the first telescopic outer rod (208), the connecting rod (202) is fixedly connected with the first telescopic outer rod (208) and the second telescopic outer rod (209), one end of the second telescopic outer rod (209) is connected with a fourth telescopic inner rod (203), and the other end of the second telescopic outer rod is connected with the rubber tube (318), the fourth telescopic inner rod (203) is fixedly connected with the shaft side cleaning block (205). A fourth channel (210) is arranged in the first telescopic inner rod (201) and the second telescopic inner rod (207), a first telescopic channel (211) and a second telescopic channel (213) of a telescopic channel are respectively arranged on two sides in the first telescopic outer rod (208), the middle of the first telescopic outer rod is connected with a fourth through hole (212), a fifth channel (214) is arranged on the inner side of the third telescopic inner rod (204), a sixth channel (215) is arranged in the hole cleaning block (206), a reset groove (221) is arranged in the hole cleaning block (206), a first spring (216) is arranged in the reset groove (221), one end of the first spring (216) is connected with the reset groove (221), the other end of the first spring is connected with a blocking block (217), a fifth through hole (218) is arranged in the middle of the blocking block (217), and a plurality of sixth through holes (220) are arranged in one side, close to the third telescopic inner rod (204), of the hole cleaning block (216), a brush (219) is arranged on one side, close to a third telescopic inner rod (204), of the hole cleaning block (216), a seventh through hole (222) is arranged in the second telescopic outer rod (209), one end of the seventh through hole (222) is connected with the rubber tube (318), the other end of the seventh through hole is connected with a third telescopic pipeline (224), the third telescopic pipeline (224) is connected with a fourth telescopic inner rod (203) in a sliding manner, an eighth through hole (225) is arranged on one side, close to the third telescopic pipeline (224), of the fourth telescopic inner rod (203), the eighth through hole (225) is connected with a fourth telescopic pipeline (223), a second spring (231) is arranged on one side, close to the eighth through hole (225), of the fourth telescopic inner rod (223), one end of the second spring (231) is connected to the fourth telescopic inner rod (203), the other end of the second spring is connected with an extrusion block (228), and a seventh channel (226) is arranged in the extrusion block (228), the seventh channel (226) is far away from a second spring (231) and is symmetrically provided with a ninth through hole (227), an eighth channel (229) is arranged in the shaft side cleaning block (205), one side of the shaft side cleaning block (205) far away from the second telescopic outer rod (209) is connected with the eighth channel (229) and is provided with a plurality of tenth through holes (230), and one side of the shaft side cleaning block (205) far away from the second telescopic outer rod (209) is provided with a brush (219).