CN112570405A

CN112570405A - Cleaning device for hydrology test sampling bottle

Info

Publication number: CN112570405A
Application number: CN202011426190.5A
Authority: CN
Inventors: 王慧杰; 田莉; 张玉龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-09
Filing date: 2020-12-09
Publication date: 2021-03-30

Abstract

The invention discloses a cleaning device for a hydrological test sampling bottle, relates to the technical field of glass bottle cleaning equipment, and solves the problems that the existing cleaning device cannot well clean all parts of a bottle body, the cleaning leakage is easy to occur, and in addition, the taking and unloading operation after the bottle body is cleaned is difficult and inconvenient due to the interference of an inserted brush part. A cleaning device for a hydrological test sampling bottle comprises a cleaning box, wherein the cleaning box comprises a cover plate, an intermediate gear and a water guide pipe, the cleaning box is integrally of a rectangular structure, a tightening cover is arranged on an opening at the top end of the cleaning box, and an L-shaped water discharge pipe is welded and communicated with the center of a bottom plate of the cleaning box; the top end of the right side wall of the cleaning box is supported and welded with a water guide pipe. The five brushing and wiping cylinders, the five spraying cylinders and the five brushing disks are matched together for use, so that the bottle body can be cleaned by rotary sweeping in an all-around and relatively thorough manner, and the probability of cleaning leakage is greatly reduced.

Description

Cleaning device for hydrology test sampling bottle

Technical Field

The invention relates to the technical field of glass bottle cleaning equipment, in particular to a cleaning device for a hydrological test sampling bottle.

Background

The hydrological testing system is a general term for various technical works for collecting and organizing hydrological data. Hydrologic tests in the narrow sense refer to the observation of hydrologic elements. The hydrological test is applied to obtain data of various hydrological factors, and the data is analyzed, calculated and integrated to evaluate and reasonably develop and utilize water resources, so that a basis is provided for planning, designing, constructing, managing and operating, flood prevention and drought resistance of engineering construction. For example, the height and scale of bridges and culverts, the shipping of riverways, and the water supply and drainage works in cities all use hydrological data such as water level, flow, silt and the like as the basic basis for design.

Before hydrology test, need at first sample the silt in the sea area, often need use during the sampling up to thousands of sampling bottles, current sampling bottle is the bottle of bottleneck small bottle body big plastic bottle. Need wash each sampling bottle after using up, the tradition way is that the manual work is cleared up thousands of bottles, is about to stretch into the bottle with the brush and rotates the washing, its process is loaded down with trivial details and inefficiency, and the cost of labor is great.

For example, patent number is CN 201820936979.7's patent, discloses a belt cleaning device of hydrology test sample bottle, belongs to the clearance instrument field, has solved the loaded down with trivial details and problem that efficiency is not high of artifical washing bottle inner wall process, and its technical scheme main points are: the bottle cleaning machine comprises a base and a support fixedly arranged on the base, wherein an electric rotating part is arranged at the outer end of the support, and a brush synchronously rotating with the electric rotating part is arranged on the electric rotating part.

The brush of the existing cleaning device is not reasonable enough in optimized design, impurities adhered to the bottle wall can not be thoroughly removed when the brush is cleaned, all parts of the bottle body can not be well cleaned comprehensively, the condition of cleaning leakage is easy to occur, and in addition, the operation of taking and unloading the bottle body after cleaning is inconvenient due to the interference of the inserted brush part.

Disclosure of Invention

The invention aims to provide a cleaning device for a hydrological test sampling bottle, which aims to solve the problems that the background technology provides a cleaning device which can not better clean all parts of a bottle body comprehensively, is easy to leak cleaning and is inconvenient to take and unload after the bottle body is cleaned due to the interference of an inserted brush part.

In order to achieve the purpose, the invention provides the following technical scheme: a cleaning device for a hydrological test sampling bottle comprises a cleaning box, wherein the cleaning box comprises a cover plate, an intermediate gear and a water guide pipe, the cleaning box is integrally of a rectangular structure, a top opening of the cleaning box is tightly covered with the cover plate, the center of a bottom plate of the cleaning box is welded and communicated with an L-shaped water discharge pipe, and the left side wall of the cleaning box is rotatably provided with the intermediate gear; a water guide pipe is supported and welded at the top end of the right side wall of the cleaning box, and a row of water outlet nozzles on the circumferential side wall of the water guide pipe penetrate through the right side wall of the cleaning box; two roll shafts are symmetrically inserted in the middle of the inner space of the cleaning box in a penetrating manner, a shaft tube is inserted in the bottom between the roll shafts in a penetrating manner, a small gear is sleeved on a protruding section at the front end of the shaft tube, and the small gear is correspondingly in meshing contact with the intermediate gear; a motor is supported at the left side of the front end of the cleaning box, a gear is sleeved on the front end protruding sections of the two roll shafts, and the two gears are in meshing transmission with the intermediate gear and the motor; the front end of the shaft tube is rotatably connected with an L-shaped water through pipe, and the L-shaped water through pipe is welded and communicated with the water guide pipe; a hexagonal positioning shaft is supported and welded at the right side position of the front inner wall and the rear inner wall of the cleaning box, an installation frame penetrates through and is inserted on the hexagonal positioning shaft through a spring pushing device, and a sampling bottle is placed at the top end between two roll shafts in a rolling manner; five brush discs are rotatably supported at the middle of the top end of the inner wall of the bottom side of the cleaning box at equal intervals; the mounting rack is provided with five brushing wiping cylinders at equal intervals, the tail ends of the five brushing wiping cylinders are also rotatably connected with one L-shaped water through pipe, and the row of L-shaped water through pipes are connected and communicated with the water guide pipe through transparent water guide hoses.

Preferably, the roller comprises a gear sleeve, a driving gear and a rubber sleeve, five gear sleeves are sleeved on the roller at equal intervals, five rubber sleeves are further sleeved on the roller, the five rubber sleeves abut against the five gear sleeves, and five driving gears are sleeved on shaft sections of adjacent positions in the front direction of the five rubber sleeves.

Preferably, a circle of tooth grooves are formed in the circumferential end faces of the five brush discs, and the five brush discs are in meshed contact with the five groups of driving gears; the end surface of the back of the five brush discs is fixed with a nylon brush through a magic tape, and the five nylon brushes are correspondingly contacted with the bottom of the five sampling bottles in a sweeping way.

Preferably, the shaft tube comprises a spraying barrel, five spraying barrels are welded and communicated on the shaft tube at equal intervals, six rows of spraying holes are formed in the circumferential outer wall of each spraying barrel in a surrounding and penetrating mode, and six nylon brushes are fixed on the barrel wall between the six rows of spraying holes through magic tapes.

Preferably, five sampling bottles correspondingly contact with five groups of rubber sleeves in a rolling manner, five spraying cylinders are supported and located right below the five groups of rubber sleeves, and brushes on the five spraying cylinders are in wiping contact with circumferential bottle walls of the five sampling bottles.

Preferably, the mounting bracket includes inserting the frame, the mounting bracket is wholly welded jointly by five equidistant spaced transverse support rods in bottom and the axial brace connecting rod on top and is constituteed, wherein the head end section of five bottom transverse support rods and the tail end tubular axle commentaries on classics of five brush wiping section of thick bamboos are inserted and are cooperated, and wear to slide on the interlude of top axial brace connecting rod and install one and insert the frame, and the six arris location axle is passed on two vertical brace inserted bar tops of this frame of inserting.

Preferably, the brushing and wiping barrel comprises gear rings, one gear ring is welded and fixed on the pipe shaft at the tail end of the five brushing and wiping barrels, and the five gear rings are correspondingly in sliding meshed contact with the five groups of gear sleeves.

Preferably, five brushing cylinders are correspondingly inserted into the five sampling bottles, and the brushing cylinders and the spraying cylinders are also provided with six rows of spraying holes and six nylon brushes in the same structure, and the six nylon brushes on the brushing cylinders are in sweeping contact with the circumferential inner wall of the sampling bottles.

Compared with the prior art, the invention has the beneficial effects that:

1. the five-position spraying cylinder and the five-position brushing cylinder can spray water to wash the bottle wall while rotating and sweeping, so that impurity and dust brushed off can be directly washed off the bottle wall, residual sticky impurities on the bottle wall are reduced, and the bottle body is cleaner;

2. the insertion frame can be inserted into the positioning mounting frame, so that the five brushing cylinders are kept to be inserted into the bottle body in a jacking mode, the brushing cylinders and the brush disc can clamp the limiting bottle body in a jacking mode front and back, the phenomenon that the bottle body slides forwards and backwards greatly during rotary cleaning to influence brushing cleaning effect is avoided, in addition, the mounting frame can be pushed to slide backwards by a spring on the hexagonal positioning shaft after the insertion frame is pulled out, the five brushing cylinders can be automatically pulled out of the five sampling bottles, the trouble of manually pulling out the brushing cylinders is omitted, the taking and unloading steps of the sampling bottles are simplified, and the operation and the use are convenient, rapid and labor-saving;

3. the five brushing cylinders, the five spraying cylinders and the five brushing discs are matched together for use, so that the bottle body can be cleaned by all-around and thorough rotary sweeping, the probability of cleaning leakage is greatly reduced, the cleaning use effect is good, the five brushing cylinders, the five gear sleeves and the five brushing discs can share one motor for linkage and synchronous driving, the additional independent matching driving motor for the brushing cylinders and the brushing discs is omitted, and the equipment cost and the power consumption are reduced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a right-side three-dimensional structure of the present invention;

FIG. 3 is a schematic diagram of the internal three-dimensional structure of the present invention;

FIG. 4 is a schematic view of the roller structure of the present invention;

FIG. 5 is a schematic view of the bottom structure of the axle tube of the present invention;

FIG. 6 is a schematic view of a brush cartridge according to the present invention;

FIG. 7 is an enlarged view of portion A of FIG. 5 according to the present invention;

FIG. 8 is an enlarged view of portion B of FIG. 4 according to the present invention;

in the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a cleaning tank; 101. a cover plate; 102. an intermediate gear; 103. a water conduit; 2. a roll shaft; 201. a gear sleeve; 202. a driving gear; 203. a rubber sleeve; 3. an axle tube; 301. a spray cylinder; 4. a hexagonal positioning shaft; 5. a mounting frame; 501. inserting a frame; 6. sampling a bottle; 7. brushing a disc; 8. a brushing cylinder; 801. a ring gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a cleaning device for a hydrological test sampling bottle comprises a cleaning box 1, wherein the cleaning box 1 comprises a cover plate 101, an intermediate gear 102 and a water guide pipe 103, the cleaning box 1 is integrally rectangular, the top end opening of the cleaning box is tightly covered with the cover plate 101, the center of a bottom plate of the cleaning box is welded and communicated with an L-shaped water discharge pipe, and the left side wall of the cleaning box 1 is rotatably provided with the intermediate gear 102; a water guide pipe 103 is supported and welded at the top end of the right side wall of the cleaning box 1, and a row of water outlet nozzles on the circumferential side wall of the water guide pipe 103 penetrate through the right side wall of the cleaning box 1; two roll shafts 2 are symmetrically inserted in the middle of the inner space of the cleaning box 1 in a penetrating manner, a shaft tube 3 is inserted in a penetrating manner in the bottom position between the roll shafts 2, and a small gear is sleeved on the protruding section at the front end of the shaft tube 3 and correspondingly in meshing contact with the intermediate gear 102; a motor is supported and arranged at the left side of the front end of the cleaning box 1, a gear is sleeved on the front end protruding sections of the two roll shafts 2, and the two gears are in meshing transmission with the intermediate gear 102 and the motor; the front end of the shaft tube 3 is rotatably connected with an L-shaped water through pipe which is welded and communicated with the water guide pipe 103; a hexagonal positioning shaft 4 is supported and welded at the right side position of the front inner wall and the rear inner wall of the cleaning box 1, an installation frame 5 is inserted on the hexagonal positioning shaft 4 in a penetrating and penetrating manner through a spring pushing and pushing manner, and a sampling bottle 6 is placed at the top end between two roll shafts 2 in a rolling manner; five brush discs 7 are rotatably supported at the middle of the top end of the inner wall of the bottom side of the cleaning box 1 at equal intervals; five brushing and wiping cylinders 8 are rotatably inserted into the mounting rack 5 at equal intervals, the tail ends of the five brushing and wiping cylinders 8 are also rotatably connected with an L-shaped water through pipe, and the L-shaped water through pipes are communicated with the water guide pipe 103 through transparent water guide hoses; five sampling bottles 6 are correspondingly in rolling contact with five groups of rubber sleeves 203, five spraying barrels 301 are supported and located right below the five groups of rubber sleeves 203, and brushes on the five spraying barrels 301 are in sweeping contact with circumferential bottle walls of the five sampling bottles 6.

Further, the roller shaft 2 comprises a gear sleeve 201, a driving gear 202 and a rubber sleeve 203, five gear sleeves 201 are sleeved on the roller shaft 2 at equal intervals, five rubber sleeves 203 are further sleeved on the roller shaft 2, the five rubber sleeves 203 abut against the five gear sleeves 201 together, five driving gears 202 are sleeved on shaft sections of adjacent positions in the front direction of the five rubber sleeves 203, the five rubber sleeves 203 on the two roller shafts 2 can roll in a friction mode to drive the sampling bottle 6 to rotate, and the circumferential outer wall of the sampling bottle 6 can be in rolling contact with nylon brushes on the five spraying barrels 301 to be cleaned comprehensively.

Furthermore, a circle of tooth grooves are formed in the circumferential end faces of the five brush discs 7, and the five brush discs 7 are in meshed contact with the five groups of driving gears 202; the end face of the back of the five brush discs 7 is fixed with a nylon brush through a magic tape, the five nylon brushes are correspondingly in wiping contact with the bottoms of the five sampling bottles 6, and the five brush discs 7 can rotate to wipe and clean the bottoms of the five sampling bottles 6 through the power transmission of the five groups of driving gears 202.

Further, central siphon 3 is including spouting a section of thick bamboo 301, an equidistant interval welding intercommunication is gone up in central siphon 3 five places and is spouted a section of thick bamboo 301, it has six rows of orifices to encircle to run through on this five places spout the circumference outer wall of a section of thick bamboo 301, and be fixed with six nylon brushes through the magic subsides on the section of thick bamboo wall between six rows of orifices, it can rotate to sweep the circumference outer wall of sampling bottle 6 and wipe cleanly to spout a section of thick bamboo 301 under the drive of central siphon 3, and five places spout a section of thick bamboo 301 and can spray water when sweeping and wipe and erode the bottle wall in the rotation, can directly wash from the bottle wall with the impurity dust of brushing and wiping and drop, reduce the residual adhesive impurity on the bottle wall, make the.

Further, the mounting frame 5 comprises an insertion frame 501, the mounting frame 5 is integrally formed by welding five transverse support rods at equal intervals at the bottom and an axial support connecting rod at the top, wherein head end sections of the five transverse support rods at the bottom are matched with tail end pipe shafts of five brushing cylinders 8 in a rotating and inserting manner, one insertion frame 501 is arranged on the middle section of the axial support connecting rod at the top in a penetrating and sliding manner, two vertical support insertion rods of the insertion frame 501 are inserted and penetrate through the six-edge positioning shaft 4, the insertion frame 501 can be inserted and positioned in the mounting frame 5, so that the five brushing cylinders 8 are kept inserted in the bottle body in a top insertion manner, the brushing cylinders 8 and the brushing discs 7 can clamp the limiting bottle body in a front-back top manner, the problem that the cleaning effect of brushing is influenced due to the fact that the bottle body slides forwards and backwards greatly during rotating cleaning is avoided, in addition, the spring on the six-edge positioning shaft 4 can push the mounting frame 5 backwards in the process of pulling out the insertion frame 501, so that the five brushing cylinders 8 automatically pull out and slide out from the five sampling, the steps of taking and unloading the sampling bottle 6 are simplified, and the operation and the use are convenient, fast and labor-saving.

Further, the brushing and wiping cylinder 8 comprises a gear ring 801, one gear ring 801 is welded and fixed on the tail end pipe shaft of each of the five brushing and wiping cylinders 8, the five gear rings 801 are correspondingly in sliding meshed contact with the five gear sleeves 201, the five brushing and wiping cylinders 8 can rotate to wipe the inner wall of the bottle body through power transmission of the five gear sleeves 201, and the five brushing and wiping cylinders 8, the five spraying cylinders 301 and the five brushing discs 7 are matched together to be used for carrying out all-around relatively thorough rotary wiping and cleaning on the inside and the outside of the bottle body, so that the probability of leakage cleaning is greatly reduced, and the cleaning and using effect is better.

Further, the five brushing and wiping cylinders 8 are correspondingly inserted into the five sampling bottles 6, the brushing and wiping cylinders 8 and the spraying cylinder 301 are also provided with six rows of spraying holes and six nylon brushes, the six nylon brushes on the brushing and wiping cylinders are in sweeping contact with the circumferential inner wall of the sampling bottles 6, the five brushing and wiping cylinders 8, the five gear sleeves 201 and the five brushing discs 7 can share one motor to be linked and synchronously driven through the power transmission of the two roll shafts 2, and the independent additional matching driving motors for the brushing and wiping cylinders 8 and the brushing discs 7 are omitted, so that the equipment cost and the power consumption are reduced.

The working principle is as follows: five groups of rubber sleeves 203 on two roll shafts 2 can rub and roll to drive the sampling bottle 6 to rotate, so that the circumferential outer wall of the sampling bottle 6 can be in rolling contact with nylon brushes on five spray cylinders 301 for cleaning, five brush discs 7 can rotate to sweep and clean the bottle bottom of five sampling bottles 6 through the power transmission of five groups of driving gears 202, five spray cylinders 301 can rotate and sweep and clean the circumferential outer wall of the sampling bottle 6 under the drive of the shaft tube 3, and five spray cylinders 301 can spray water to wash and wash the bottle wall while rotating and sweeping, so that the brushed impurity dust can be directly washed and fall off from the bottle wall, the residual adhered impurities on the bottle wall are reduced, the bottle body is cleaner, the inserting frame 501 can be inserted into the positioning mounting frame 5, the five brush cylinders 8 can be kept inserted in the bottle body, and the brush cylinders 8 and the brush discs 7 can be pushed and clamped to limit the bottle body back and forth, thereby avoiding the great slippage before and after the rotation cleaning, the brushing cleaning effect is influenced, in addition, the spring on the hexagonal positioning shaft 4 behind the drawing-off insertion frame 501 can push the mounting frame 5 to slide backwards, so that the five brushing cylinders 8 can be automatically drawn out from the five sampling bottles 6, the trouble of manually taking off the brushing cylinder 8 is saved, the taking and unloading steps of the sampling bottle 6 are simplified, the operation and the use are convenient, rapid and labor-saving, the five brushing cylinders 8 can rotate to clean the inner wall of the bottle body, and the five brushing cylinders 8, the five spraying cylinders 301 and the five brushing discs 7 are matched together for use, so that the bottle body can be cleaned by rotary brushing in an all-around and relatively thorough manner, the probability of cleaning leakage is greatly reduced, the cleaning and using effects are good, the five brushing cylinders 8, the five gear sleeves 201 and the five brushing discs 7 can share one motor for linkage and synchronous driving, this eliminates the need for a separate additional drive motor for the brush drum 8 and the brush plate 7, which contributes to a reduction in equipment cost and power consumption.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a belt cleaning device of hydrology test sample bottle which characterized in that: the cleaning device comprises a cleaning box (1), wherein the cleaning box (1) comprises a cover plate (101), an intermediate gear (102) and a water guide pipe (103), the cleaning box (1) is integrally of a rectangular structure, a top opening of the cleaning box is tightly covered with the cover plate (101), the center of a bottom plate of the cleaning box is welded and communicated with an L-shaped water discharge pipe, and the left side wall of the cleaning box (1) is rotatably provided with the intermediate gear (102); a water guide pipe (103) is supported and welded at the top end of the right side wall of the cleaning box (1), and a row of water outlet nozzles on the circumferential side wall of the water guide pipe (103) penetrate through the right side wall of the cleaning box (1); two roll shafts (2) are symmetrically inserted in the middle of the inner space of the cleaning box (1) in a penetrating manner, a shaft tube (3) is inserted in a penetrating manner in the bottom position between the roll shafts (2), a small gear is sleeved on a protruding section at the front end of the shaft tube (3), and the small gear is correspondingly in meshing contact with the intermediate gear (102); a motor is supported and arranged at the left side of the front end of the cleaning box (1), a gear is sleeved on the front end protruding sections of the two roll shafts (2), and the two gears are in meshing transmission with the intermediate gear (102) and the motor; the front end of the shaft tube (3) is rotatably connected with an L-shaped water through pipe, and the L-shaped water through pipe is welded and communicated with the water guide pipe (103); a hexagonal positioning shaft (4) is supported and welded at the right side position of the front inner wall and the rear inner wall of the cleaning box (1), an installation rack (5) penetrates and is inserted on the hexagonal positioning shaft (4) through a spring pushing device, and a sampling bottle (6) is placed at the top end between two roll shafts (2) in a rolling manner; five brush discs (7) are rotatably supported at the middle of the top end of the inner wall of the bottom side of the cleaning box (1) at equal intervals; five brushing and wiping barrels (8) are arranged on the mounting rack (5) in an equidistance interval rotating and inserting mode, the tail ends of the five brushing and wiping barrels (8) are also rotatably connected with an L-shaped water through pipe, and the L-shaped water through pipe in one row is connected and communicated with the water guide pipe (103) through a transparent water guide hose.

2. The cleaning device for the hydrological test sample bottle as set forth in claim 1, wherein: the roll shaft (2) comprises a gear sleeve (201), a driving gear (202) and a rubber sleeve (203), wherein five gear sleeves (201) are sleeved on the roll shaft (2) at equal intervals, five rubber sleeves (203) are further sleeved on the roll shaft, the five rubber sleeves (203) abut against the five gear sleeves (201), and five driving gears (202) are sleeved on shaft sections of adjacent positions in the front side of the five rubber sleeves (203).

3. The cleaning device for the hydrological test sample bottle as set forth in claim 1, wherein: a circle of tooth grooves are formed in the circumferential end faces of the five brush discs (7), and the five brush discs (7) are in meshed contact with the five groups of driving gears (202); the end surfaces of the back parts of the five brush discs (7) are fixed with nylon brushes through magic tapes, and the five nylon brushes are correspondingly contacted with the bottoms of the five sampling bottles (6) in a sweeping way.

4. The cleaning device for the hydrological test sample bottle as set forth in claim 1, wherein: the shaft tube (3) comprises a spraying barrel (301), the shaft tube (3) is welded and communicated with five spraying barrels (301) at equal intervals, six rows of spray holes are formed in the circumferential outer wall of the five spraying barrels (301) in a surrounding and penetrating mode, and six nylon brushes are fixed on the barrel wall between the six rows of spray holes through magic tapes.

5. The cleaning device for the hydrological test sample bottle as set forth in claim 1, wherein: five sampling bottles (6) are correspondingly in rolling contact with five groups of rubber sleeves (203), five spraying barrels (301) are supported and positioned under the five groups of rubber sleeves (203), and brushes on the five spraying barrels (301) are in sweeping contact with circumferential bottle walls of the five sampling bottles (6).

6. The cleaning device for the hydrological test sample bottle as set forth in claim 1, wherein: mounting bracket (5) are including inserting frame (501), mounting bracket (5) wholly comprises bottom five equidistance spaced transverse support rods and the common welding of axial brace rod on top, and wherein the cooperation is inserted with the tail end hollow axle commentaries on classics of five brush wiping section of thick bamboo (8) to the head end section of five bottom transverse support rods, and wears to slide on the interlude of top axial brace rod and installs one and insert frame (501), and this two vertical brace inserted bar tops of inserting frame (501) are inserted and are passed six arris location axle (4).

7. The cleaning device for the hydrological test sample bottle as set forth in claim 1, wherein: the brushing and wiping barrel (8) comprises gear rings (801), one gear ring (801) is welded and fixed on the tail end pipe shaft of the five brushing and wiping barrels (8), and the five gear rings (801) are correspondingly in sliding meshed contact with the five groups of gear sleeves (201).

8. The cleaning device for the hydrological test sample bottle as set forth in claim 1, wherein: the five brushing and wiping cylinders (8) are correspondingly inserted into the five sampling bottles (6), and the brushing and wiping cylinders (8) and the spraying cylinder (301) are also provided with six rows of spraying holes and six nylon brushes in the same structure, and the six nylon brushes on the brushing and wiping cylinders are in sweeping and wiping contact with the circumferential inner wall of the sampling bottles (6).