CN117443877A - Automatic cleaning device for latex barrels - Google Patents

Abstract

The utility model belongs to the technical field of cleaning, specifically a latex barrel automatic cleaning device, which comprises a base plate, the top of bottom plate rotates and is connected with the workstation, one side of bottom plate is equipped with control assembly, the both sides of bottom plate are equipped with adjusting part, adjusting part's bottom is equipped with rotating assembly, rotating assembly's surface evenly rotates and is connected with multiunit slip subassembly, slip subassembly's output swing joint has cleaning element; the rotating assembly includes a central shaft; the device is high to the clean efficiency of latex bucket, and clean effect is good, realizes the washing work of adjustable multi-angle, and is stable high-efficient, guarantees actual clean demand to can also strike off clean in step to the interior bottom and the interior top of latex bucket in clean process, the cooperation is along side opening spun washing liquid further improves clean quality, and the ejection of compact is stable and orderly, and the effectual effect of saving water and saving cleaning time that has realized simultaneously is energy-conserving emission reduction, green.

Description

Automatic cleaning device for latex barrels

Technical Field

The application belongs to the technical field of cleaning, and specifically relates to an automatic cleaning device for a latex barrel.

Background

The latex barrel is a ton barrel, and the ton barrel is formed by combining an inner container and a metal frame, wherein the inner container is made of low-density polyethylene or high-density polyethylene, has high strength, corrosion resistance and good sanitation, is safer and more reliable by adding an external metal frame, can greatly reduce production, storage, transportation and operation costs by adopting container barrel packaging, saves a large amount of manpower and material resources, and simultaneously needs to automatically clean the inside of the latex barrel when in actual use, so that the normal operation of subsequent use is ensured.

Chinese patent 2020104446337 discloses a ton bucket cleaning device for cleaning ton buckets of chemicals, comprising: a frame, a transfer assembly, and a cleaning assembly; the machine frame comprises a conveying area positioned at the end part of the machine frame and a cleaning area positioned in the middle of the machine frame; the conveying assembly is arranged in the conveying area and used for conveying the ton barrels to the cleaning area for cleaning and conveying the cleaned ton barrels out; the cleaning component is arranged in the cleaning area and is used for cleaning the ton barrel; the cleaning device has low cleaning efficiency and poor cleaning effect.

The invention patent 2022116454386 relates to the technical field of ton bucket cleaning, and discloses ton bucket cleaning equipment which comprises the following components: the lifting assembly is arranged on one side of the top of the base, the surface of the lifting assembly is sleeved with the connecting sleeve, and one side of the connecting sleeve is fixedly connected with the mounting plate; the top of the mounting plate is provided with a second servo motor, and the output end of the second servo motor movably penetrates through the inside of the mounting plate; the cleaning equipment has large cleaning difficulty and many cleaning dead angles, and cannot realize the effect of automatically adjusting multi-angle flushing.

And because the latex bucket is mostly square structure, consequently rotate and wash the time to latex bucket inner wall with the help of belt cleaning device, the distance between belt cleaning device and the latex bucket inner wall constantly changes, and can't carry out self-adaptation to washing distance among the prior art to reduce the cleaning performance to latex bucket inner wall.

Meanwhile, when the cleaning device in the prior art rotates and cleans the inside of the latex barrel, the inclination angle between the cleaning device and the inner wall of the latex barrel is continuously changed, and the cleaning device cannot be over against the inner wall of the latex barrel at any time and washes.

When larger impurities are attached to the inner wall of the latex barrel, the large impurities cannot be scraped and cleaned rapidly and efficiently only by the washing of the cleaning device, so that the cleaning effect is reduced.

After the inner wall of the latex barrel is washed, a large amount of cleaning liquid is adhered to the inner wall of the latex barrel, and if the cleaning liquid cannot be dehumidified in time, the subsequent use of the latex barrel is affected.

Disclosure of Invention

The application provides a latex bucket self-cleaning device to above problem.

In order to achieve the above purpose, the present application provides the following technical solutions: the automatic latex barrel cleaning device comprises a bottom plate, wherein the top of the bottom plate is rotationally connected with a workbench, one side of the bottom plate is provided with a control assembly, two sides of the bottom plate are provided with adjusting assemblies, the bottoms of the adjusting assemblies are provided with rotating assemblies, the outer surfaces of the rotating assemblies are uniformly rotationally connected with a plurality of groups of sliding assemblies, and the output ends of the sliding assemblies are movably connected with cleaning assemblies;

The rotating assembly comprises a central shaft, a circulation cavity is formed in the central shaft, and a plurality of groups of hinge shafts are uniformly connected to the outer surface of the central shaft in a rotating manner;

the sliding assembly comprises a sleeve, one side of the sleeve is fixedly connected with the outer surface of the hinge shaft, a sliding cavity is formed in the sleeve, a sliding rod is connected in the sliding cavity in a sliding mode, a movable ball is arranged at the other end of the sliding rod, a transverse hole is formed in the sliding rod, an elastic baffle is arranged at the bottom of the side wall of the sliding cavity, and the other end of the elastic baffle is fixedly connected with the bottom of the side wall of the sliding rod;

the cleaning assembly comprises a side frame, two groups of through holes are symmetrically formed in the side frame, the bottom of the side frame is movably connected with the top of the movable ball, fixed electromagnetic plates are arranged at the center of the inner wall of each through hole, multiple groups of abdicating holes are uniformly formed in the fixed electromagnetic plates, conical brushes are slidably connected in the abdicating holes, a sliding magnetic plate is arranged at one end, close to a central shaft, of each fixed electromagnetic plate, one side of each sliding magnetic plate is fixedly connected with the end part of each conical brush, a filter plate is arranged at the other side of each fixed electromagnetic plate, multiple groups of filter holes are uniformly formed in the filter plate, the filter holes are matched with the conical brushes, and distance sensors are arranged at one ends, far away from the central shaft, of the filter plates.

The device not only can fully wash the inner wall of the latex barrel, but also can correspondingly adjust the distance and the inclination angle between the side frame and the inner wall of the latex barrel, thereby ensuring the washing effect; meanwhile, when larger impurities exist on the inner wall of the latex barrel, the side frames are scraped off from the inner wall of the latex barrel, so that the cleaning effect is improved; after the washing is completed, the side frames incline and rotate to perform wind power dehumidification on the latex barrel, so that the cleaning and drying effects on the inner wall of the latex barrel are effectively improved.

Further, each electrical component is controlled to the control assembly electrical property, the workstation top is equipped with the latex bucket, the top axis department of latex bucket has seted up the inlet, one side bottom of latex bucket is equipped with the liquid outlet, distance sensor is used for detecting the distance value between filter plate lateral wall and the latex bucket inner wall.

Further, a rotating shaft is rotatably connected to one side top of the bottom plate through a bearing, the outer surface of the rotating shaft is fixedly connected with one side bottom of the workbench, one side top of the bottom plate far away from the rotating shaft is provided with a driving air rod, the top output end of the driving air rod is fixedly connected with the bottom of the workbench, and one side top of the workbench far away from the driving air rod is provided with a sliding slope.

Further, the adjusting part comprises two groups of fixed blocks, one side of each fixed block is fixedly connected with the side wall of the bottom plate, an electric push rod is arranged at the top of each fixed block, a top plate is arranged at the top of each electric push rod, a driving motor is arranged at the center of the bottom of each top plate, a fixed shaft is arranged at the bottom output end of each driving motor, and the bottom of each fixed shaft is fixedly connected with the top of the central shaft.

Further, the sealed circulation ring that rotates of surface of fixed axle is connected with, the roof groove has been seted up to the interior bottom of fixed axle, the inner wall of sealed circulation ring is linked together with the inner chamber seal of roof groove, the bottom of roof groove is linked together with the top of circulation chamber, the bottom intercommunication of roof has the water service pipe, the water inlet end of water service pipe is linked together with external water tank through the water pump, the water outlet end of water service pipe is linked together with the inner chamber of sealed circulation ring.

Further, the surface of center pin is equipped with multiunit rotation motor, the output of rotation motor and the tip fixed connection of articulated shaft, the one end that the articulated shaft kept away from rotation motor is connected with the curb plate through the bearing rotation, the lateral wall of curb plate and the lateral wall fixed connection of center pin.

Further, one end of the sliding cavity is communicated with a first hose, the other end of the first hose is communicated with the circulating cavity, a connecting spring is arranged on the side wall of the sliding cavity, the other end of the connecting spring is fixedly connected with the side wall of the sliding rod, and the bottoms of the sleeve and the sliding rod are both in the same horizontal plane.

Further, the one end and the slip chamber of cross bore are linked together, the other end intercommunication of cross bore has the second hose, the bottom of side frame all is equipped with the bottom hole, the one end and the second hose of bottom hole are linked together, the other end and the through-hole of bottom hole and the one end of keeping away from the center pin are linked together, the lateral wall in slip chamber and cross bore all is equipped with multiunit side opening.

Further, the inner wall of the hole of stepping down is equipped with the elasticity sealing ring, the inner wall of elasticity sealing ring and the surface sealing sliding connection of circular cone brush, the lateral wall of fixed electromagnetic plate evenly is equipped with multiunit reset spring, reset spring's the other end and the lateral wall fixed connection of slip magnetic plate, reset spring is located the surface of circular cone brush, the magnetism of fixed electromagnetic plate and slip magnetic plate facing the terminal surface is the same.

Further, the diameter of circular cone brush increases gradually along slip magnetic plate end to the other end, the lateral wall of side frame all is equipped with the scraper blade, the distance between fixed electromagnetic plate and the filter plate opposite end face is invariable, the slip magnetic plate possesses weight, the internal diameter of filtration pore and hole of stepping down is the same and all matches with circular cone brush maximum external diameter.

Compared with the prior art, the beneficial effects of the application are as follows:

1. according to the invention, through the mutual matching of the rotating component, the sliding component, the cleaning component and other components, the device has high cleaning efficiency and good cleaning effect on the latex barrel, realizes the adjustable multi-angle flushing work, is simple to operate, stable and efficient, ensures the actual cleaning requirement, can synchronously scrape and clean the inner bottom and the inner top of the latex barrel in the cleaning process, further improves the cleaning quality by matching with the cleaning liquid sprayed along the side holes, realizes stable and orderly discharging, effectively realizes the effects of saving water and cleaning time, saves energy and reduces emission, and is environment-friendly.

The device has the advantages that the cleaning efficiency is high, the cleaning effect is good, the actual flushing and dehumidifying requirements are met, the operation is simple and efficient, and meanwhile, the position and the inclination angle of the side frame are adaptively adjusted according to the square structure of the latex barrel in the flushing process, so that the conical brush can thoroughly and effectively flush and clean the inner wall of the latex barrel, the adaptability is higher, the stability is higher, and the regulation and control performance is better.

According to the invention, through the mutual matching of the scraper, the sliding magnetic plate and other parts, when larger impurities are attached to the inner wall of the latex barrel, the scraper can be tightly attached to the inner wall of the latex barrel by means of the reverse movement of the conical brush, and the scraping effect of the scraper on the larger impurities on the inner wall of the latex barrel is further improved by means of the water pressure effect; and after the washing is completed, the moving distance of the two groups of sliding magnetic plates is different, so that the side frames obliquely rotate at the top of the movable ball, wind power is generated, the inner wall of the latex barrel is dehumidified and dried, the cleanliness and the dryness of the latex barrel are effectively improved, and the subsequent use effect of the latex barrel is ensured.

Drawings

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

FIG. 2 is a schematic view of another view angle structure of the present invention;

FIG. 3 is a schematic elevational cross-sectional view of a rotary structure of the present invention;

FIG. 4 is a schematic view of the slide assembly and cleaning assembly of the present invention;

FIG. 5 is an enlarged schematic view of FIG. 4 at A;

FIG. 6 is an enlarged schematic view of FIG. 4 at B;

FIG. 7 is a schematic top cross-sectional view of a cleaning assembly of the present invention;

FIG. 8 is a schematic elevational cross-sectional view of a slide assembly of the present invention;

FIG. 9 is an enlarged schematic view of FIG. 8 at C;

fig. 10 is an enlarged schematic view of fig. 8 at D.

In the figure; 1. a bottom plate; 2. a work table; 3. a rotating shaft; 4. driving the air rod; 5. a sliding slope; 6. an adjustment assembly; 601. a fixed block; 602. an electric push rod; 603. a top plate; 604. a driving motor; 605. a fixed shaft; 7. a rotating assembly; 701. a central shaft; 702. a water pipe; 703. sealing the flow-through ring; 704. a flow-through chamber; 705. a rotating motor; 706. a side plate; 707. a hinge shaft; 708. a top groove; 8. a sliding assembly; 801. a sleeve; 802. a slide bar; 803. a first hose; 804. a sliding chamber; 805. a connecting spring; 806. an elastic baffle; 807. a transverse hole; 808. a movable ball; 809. a second hose; 810. a side hole; 9. a cleaning assembly; 901. a side frame; 902. fixing an electromagnetic plate; 903. sliding the magnetic plate; 904. a filter plate; 905. a conical brush; 906. filtering holes; 907. a relief hole; 908. an elastic sealing ring; 909. a scraper; 910. a bottom hole; 911. a return spring; 912. and a through hole.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

First embodiment

As shown in fig. 1-10, an automatic cleaning device for latex barrels comprises a bottom plate 1, wherein a workbench 2 is rotatably connected to the top of the bottom plate 1, a control component is arranged on one side of the bottom plate 1 and is used for electrically controlling various electrical elements, the top of the workbench 2 is provided with a latex barrel, a liquid inlet is formed in the center shaft of the top of the latex barrel, a liquid outlet is formed in the bottom of one side of the latex barrel, and the latex barrel in the embodiment is of a ton barrel, namely of a square structure, so that the inner wall of the latex barrel is required to be flushed in an adjustable multi-angle manner.

One side top of bottom plate 1 is connected with axis of rotation 3 through the bearing rotation, the surface of axis of rotation 3 and one side bottom fixed connection of workstation 2, then workstation 2 can take place to rotate round axis of rotation 3, and then be convenient for latex bucket carries out self-cleaning at workstation 2 top, one side top that axis of rotation 3 was kept away from to bottom plate 1 is equipped with drives gas pole 4, the top output of drive gas pole 4 and the bottom fixed connection of workstation 2, drive gas pole 4 starts and drives workstation 2 and take place to rotate round axis of rotation 3, one side bottom of workstation 2 and can ground contact, thereby be convenient for bulky ton bucket go up the unloading process, one side top that drive gas pole 4 was kept away from to workstation 2 is equipped with sliding slope 5, the setting of sliding slope 5 is convenient for the last unloading of ton bucket equally.

The both sides of bottom plate 1 are equipped with adjusting part 6, adjusting part 6 mainly used adjusts the height, the bottom of adjusting part 6 is equipped with rotating part 7, rotating part 7 drives the slip subassembly 8 and the cleaning part 9 of bottom and rotate, thereby realize the multi-angle to the latex bucket inner wall and rotate cleanly, the surface of rotating part 7 evenly rotates and is connected with multiunit slip subassembly 8, slip subassembly 8 corresponds the extension length of adjusting cleaning part 9, guarantee that the latex bucket of square structure carries out the cleanness at all-round no dead angle, the output swing joint of slip subassembly 8 has cleaning part 9, cleaning part 9 work and cooperation each structure realization is to the washing of adjustable multi-angle of square structure's latex bucket inner wall.

The adjusting part 6 includes two sets of fixed blocks 601, one side of fixed block 601 and the lateral wall fixed connection of bottom plate 1, the fixed block 601 mainly plays fixed support's effect, the top of fixed block 601 is equipped with electric putter 602, electric putter 602's top is equipped with roof 603, then electric putter 602 starts and drives the roof 603 of top and reciprocate, then electric putter 602's setting realizes the regulation to roof 603 height, also can adjust the rotating assembly 7 height of bottom, roof 603's bottom center department is equipped with driving motor 604, driving motor 604's bottom output is equipped with fixed axle 605, driving motor 604 starts the fixed axle 605 that can drive the bottom and rotates, fixed axle 605 rotates and drives the rotating assembly 7 rotation of bottom, thereby realize the rotation cleanness to the latex bucket inner wall.

The rotating assembly 7 comprises a central shaft 701, the bottom of the fixed shaft 605 is fixedly connected with the top of the central shaft 701, the central shaft 701 is actually driven to rotate when the fixed shaft 605 rotates, a circulation cavity 704 is formed in the central shaft 701, the inside of the circulation cavity 704 is mainly used for circulation of cleaning liquid, a plurality of groups of hinge shafts 707 are uniformly connected to the outer surface of the central shaft 701 in a rotating mode, and the hinge shafts 707 can rotate around the central shaft 701.

The outer surface of the fixed shaft 605 is connected with a sealing circulation ring 703 in a sealing and rotating manner, the sealing circulation ring 703 does not rotate along with the rotation of the fixed shaft 605, a top groove 708 is formed in the inner bottom of the fixed shaft 605, the inner wall of the sealing circulation ring 703 is communicated with the inner cavity of the top groove 708 in a sealing manner, cleaning liquid in the sealing circulation ring 703 can enter the inner part of the top groove 708, the bottom of the top groove 708 is communicated with the top of the circulation cavity 704, cooling liquid in the top groove 708 can enter the circulation cavity 704 to circulate, the bottom of the top plate 603 is communicated with a water pipe 702, the position of the water pipe 702 is fixed, the water inlet end of the water pipe 702 is communicated with an external water tank through a water pump, the water outlet end of the water pipe 702 is communicated with the inner cavity of the sealing circulation ring 703, and the external water tank contains cleaning liquid, a control component controls the water pump to start the water pump to pump the cleaning liquid in the external water tank into the water pipe 702, the water pipe 702 reaches the inner part of the sealing circulation ring 703, and finally enters the inside the circulation cavity 704 along the sealing circulation ring 703 and the top groove 708 to circulate.

The surface of center pin 701 is equipped with multiunit rotation motor 705, and rotation motor 705's output and the tip fixed connection of articulated shaft 707, then rotation motor 705 starts and drives articulated shaft 707 and rotate, and the one end that articulated shaft 707 kept away from rotation motor 705 is connected with curb plate 706 through the bearing rotation, and the lateral wall of curb plate 706 and the lateral wall fixed connection of center pin 701, the setting of curb plate 706 improves the pivoted stability of articulated shaft 707.

The sliding component 8 comprises a sleeve 801, one side of the sleeve 801 is fixedly connected with the outer surface of a hinging shaft 707, the sleeve 801 can be driven to rotate when the hinging shaft 707 rotates, a sliding cavity 804 is formed in the sleeve 801, a sliding rod 802 is slidably connected to the inside of the sliding cavity 804, the sliding rod 802 can slide conveniently, meanwhile, cleaning liquid mainly circulates in the sliding cavity 804, pressure applied to the side wall of the sliding rod 802 by means of the cleaning liquid in the sliding cavity 804 is applied to the side wall of the sliding rod 802, the bonding degree of the sliding rod 802 and the inner wall of a latex barrel is further improved, the automatic adjustment multi-angle cleaning effect of the inner wall of the latex barrel is guaranteed, a movable ball 808 is arranged at the other end of the sliding rod 802, the movable ball 808 is arranged to facilitate the movable connection of the cleaning component 9 at the end part of the sliding rod 802, a transverse hole 807 is formed in the sliding rod 802, cooling liquid in the sliding cavity 804 circulates to the other end along the transverse hole 807, an elastic baffle 806 is arranged at the bottom of the side wall of the sliding cavity 804, the other end of the elastic baffle 806 is fixedly connected with the bottom of the side wall of the sliding rod 802, the elastic baffle 806 has elastic expansion performance, the elastic baffle 806 is arranged, the bottom of the sliding rod 802 and the bottom of the sleeve 801 are located on the same horizontal plane, and the inner side of the sliding cavity 804 is further improved in the sealing performance.

One end of sliding cavity 804 is linked together and is had first hose 803, the other end and the circulation cavity 704 of first hose 803 are linked together, then the inside washing liquid of circulation cavity 704 can get into the inside circulation of sliding cavity 804 along first hose 803, the lateral wall of sliding cavity 804 is equipped with connecting spring 805, connecting spring 805's the other end and the lateral wall fixed connection of slide bar 802, connecting spring 805's setting further improves the elasticity reset performance of slide bar 802, sleeve 801 and slide bar 802's bottom all are in same horizontal plane, then sleeve 801 and slide bar 802 rotate in the latex bucket bottom, when the bottom with the help of sleeve 801 and slide bar 802 can scrape the cleanness to the attached impurity etc. in the latex bucket bottom, thereby effectual improvement latex bucket inner wall, and sleeve 801 and slide bar 802 can also promote impurity or the etc. of latex bucket inner bottom to the liquid end when rotating, and finally follow the liquid outlet and send out, effectually avoided the washing liquid that contains impurity in the latex bucket cleaning process to take place to pile up and finally reduce the cleaning effect in the inner bottom of latex bucket.

Meanwhile, the side walls of the sliding cavity 804 and the transverse hole 807 are respectively provided with a plurality of groups of side holes 810, the side holes 810 are arranged to realize the spraying cleaning effect of cleaning liquid on the inner bottom of the latex barrel, and the scraping cleaning effect of impurities on the inner bottom of the latex barrel is further improved by matching with the rotation of the sleeve 801 and the sliding rod 802.

One end of the transverse hole 807 is communicated with the sliding cavity 804, and the other end of the transverse hole 807 is communicated with the second hose 809, so that cleaning fluid in the sliding cavity 804 enters the transverse hole 807 and finally reaches the inside of the second hose 809, and meanwhile, the second hose 809 is mainly arranged in the movable ball 808, so that no matter how the cleaning component 9 moves, the second hose 809 can supply water to the inside of the cleaning component 9 for improving the cleaning effect.

The cleaning component 9 comprises a side frame 901, the bottom of the side frame 901 is hinged with the top of the movable ball 808, two groups of through holes 912 are symmetrically formed in the side frame 901, two groups of corresponding transverse holes 807 and second hoses 809 are also formed, and the two groups of transverse holes 807 and the two groups of second hoses 809 are corresponding to the two groups of through holes 912, so that the circulation stability of cleaning fluid and the regulation and control performance of the side frame 901 are further improved.

The inner wall center department of through-hole 912 all is equipped with fixed electromagnetic plate 902, fixed electromagnetic plate 902 is as main manger plate unit, make the washing liquid that side frame 901 bottom got into all can just wash the process to the latex bucket inner wall, the bottom of side frame 901 all is equipped with hole 910, hole 910's one end is linked together with second hose 809, hole 910's the other end is linked together with the one end that center pin 701 was kept away from to through-hole 912, then the inside washing liquid of second hose 809 gets into hole 910 inside, and finally reach inside through-hole 912 along hole 910, and just assault the washing to the inner wall of latex bucket under fixed electromagnetic plate 902's the effect of blocking, the effectual improvement is to the adjustable multi-angle cleaning effect of latex bucket inner wall.

When the device is used, the control component controls the driving air rod 4 to start and drive the sliding slope surface 5 of the workbench 2 to incline downwards, the latex barrel is pushed to the top of the workbench 2 along the sliding slope surface 5, the control component controls the driving air rod 4 to reversely start and drive the workbench 2 to restore to the horizontal state, and meanwhile, the clamping component is arranged at the top of the workbench 2 to fix and clamp the latex barrel, so that the latex barrel is prevented from shaking and the safety and stability of the latex barrel are reduced in the cleaning process.

Then the control assembly controls the electric push rod 602 to start and drive the top plate 603 to move downwards, and in the initial condition, the sleeve 801 is vertically downwards and parallel to the side wall of the central shaft 701, and meanwhile, the side frame 901 is attached to the side wall of the sleeve 801, so that the space of the sliding assembly 8 and the cleaning assembly 9 is further reduced, and the rotating assembly 7 is convenient to drive the sliding assembly 8 and the cleaning assembly 9 to directly enter the interior along the liquid inlet of the latex barrel for cleaning.

When the central shaft 701 continuously enters the latex barrel, the control component controls the upper and lower multi-group rotating motors 705 to start and drive the hinging shafts 707 to rotate, the hinging shafts 707 rotate and drive the upper and lower multi-group sleeves 801 to rotate upwards, meanwhile, the control component controls the driving motor 604 to start and drive the fixing shaft 605 to rotate, the fixing shaft 605 drives the central shaft 701 at the bottom to rotate, the central shaft 701 drives the multi-group sleeves 801 to rotate, the sleeves 801 drive the sliding rods 802 to rotate, the sliding rods 802 stretch the connecting springs 805 along the sliding cavities 804 under the action of centrifugal force and rotate towards the end far away from the central shaft 701, meanwhile, the sliding rods 802 rotate and drive the side frames 901 to rotate through the movable balls 808, the top of the side frames 901 continuously overturn upwards under the blocking action of centrifugal force and the inner wall of the latex barrel in the rotation process of the side frames 901, when the side frames 901 are in contact with the inner wall of the latex barrel, the side frames 901 are parallel to the side walls of the latex barrel, and the sleeves 801 and the sliding rods 802 are in mutual extrusion contact with the inner bottom and the inner top of the latex barrel, and the device installation is completed.

The control assembly controls the water pump to start, the cleaning fluid in the water tank outside the water pump is pumped and enters the water pipe 702, and the cleaning fluid enters the sliding cavity 804 along the sealing circulation ring 703, the top groove 708, the circulation cavity 704 and the first hose 803, the water pressure inside the sliding cavity 804 is continuously increased, the cleaning fluid inside the sliding cavity 804 enters the through hole 912 along the transverse hole 807, the second hose 809 and the bottom hole 910, and finally is sprayed to the inner wall of the latex barrel along the through hole 912, so that the inner wall of the latex barrel is thoroughly and effectively flushed and cleaned, the cleaning effect and the cleaning quality are effectively improved, and the adjustable multi-angle flushing of the latex barrel is realized.

And in the cleaning process, the cleaning fluid in the sliding cavity 804 and the transverse hole 807 can be discharged along the inside of the side hole 810, so that the cleaning effect on the inner bottom of the latex barrel is realized, the inner bottom of the latex barrel is fully scraped and cleaned in the rotating process of the sleeve 801 and the sliding rod 802, the cleaning effect is improved, and the cleaning effect of the cleaning fluid containing impurities in the inner bottom of the latex barrel is avoided to reduce the cleaning effect of the latex barrel.

When the cleaning of the inner wall of the latex barrel is finished, the control component controls the water pump to stop pumping, meanwhile, the driving motor 604 stops working, the central shaft 701 does not rotate any more, the rotating motor 705 reversely rotates and drives the sleeve 801 to reversely rotate to a vertical state, meanwhile, the blocking component is arranged at the bottom of the movable ball 808 and is parallel to the bottom of the sliding rod 802, the bottom of the side frame 901 is provided with a corresponding groove, therefore, the included angle between the side frame 901 and the sliding rod 802 is limited and can only move within the range of 0-90 degrees, when the sleeve 801 downwards rotates, the side frame 901 rotates towards the end close to the central shaft 701 by virtue of the gravity of the side frame 901, the side frame 901 is attached to the side wall of the central shaft 701, the control component controls the electric push rod 602 to reversely start and drive the central shaft 701 to upwards move away from the latex barrel, then the workbench 2 reversely starts and facilitates the latex barrel to downwards slide out along the sliding slope 5, and the new latex barrel is replaced, and the process is repeated.

The device has high cleaning efficiency and good cleaning effect on the latex barrel, realizes adjustable multi-angle flushing work, is simple to operate, is stable and efficient, ensures actual cleaning requirements, and is convenient for the cleaning assembly 9 to enter the inner cavity along the liquid inlet of the latex barrel for cleaning; and can also scrape the interior bottom and interior top of latex bucket in step and clean in the cleaning process, the cooperation is along side opening 810 spun washing liquid further improves clean quality, and the ejection of compact is stable and orderly, has effectually realized saving water and saving cleaning time's effect simultaneously, energy saving and emission reduction, green.

Second embodiment

When the latex barrel is actually cleaned, as the latex barrel is in a square structure, the distance between the cleaning component 9 and the inner wall of the latex barrel is continuously changed in the process of rotating the central shaft 701 and driving the cleaning component 9 to rotate, and the inner wall of the latex barrel is kept to be sprayed only by the spraying effect of the cleaning liquid in the prior art, so that the cleaning effect on the inner wall of the latex barrel is reduced; when the cleaning component 9 rotates along with the central shaft 701, an inclination angle exists between the cleaning component 9 and the inner wall of the latex barrel, so that the cleaning component 9 can not directly flush the inner wall of the latex barrel, and the cleaning effect is reduced; when larger impurities are attached to the inner wall of the latex barrel, the cleaning effect on the impurities cannot be achieved only by spraying the cleaning liquid; and after the inner wall of the latex barrel is washed, part of the cleaning liquid is easy to adhere to the inner wall of the latex barrel, and if the cleaning liquid cannot be sufficiently dehumidified, the using effect of the subsequent latex barrel can be reduced.

In order to solve the above problems, the automatic cleaning device for latex barrels further comprises: the inside of fixed electromagnetic plate 902 evenly is equipped with multiunit hole 907 of stepping down, the inside sliding connection of hole 907 of stepping down has conical brush 905, then conical brush 905 can slide in the inside hole 907 of stepping down, the inner wall of hole 907 of stepping down is equipped with elastic sealing ring 908, elastic sealing ring 908's inner wall and conical brush 905's surface sealing sliding connection, improve the sealed effect of striking off conical brush 905 surface with the help of elastic sealing ring 908's setting, avoid the washing liquid of fixed electromagnetic plate 902 one side to get into the other end along hole 907 of stepping down, simultaneously after conical brush 905 accomplishes the cleaning to the latex bucket inner wall, carry out abundant scraping off the cleanness with the help of elastic sealing ring 908 to conical brush 905's surface, the effectual cleaning performance who improves conical brush 905 surface.

The fixed electromagnetic plate 902 is provided with the sliding electromagnetic plate 903 at one end close to the central shaft 701, one side of the sliding electromagnetic plate 903 is fixedly connected with the end part of the conical hairbrush 905, the magnetism of the opposite end surfaces of the fixed electromagnetic plate 902 and the sliding electromagnetic plate 903 is the same, when the energizing current of the fixed electromagnetic plate 902 is increased, the sliding electromagnetic plate 903 is driven to move far away from the end of the fixed electromagnetic plate 902 by the magnetic repulsive force of the fixed electromagnetic plate 902 to the sliding electromagnetic plate 903, the sliding electromagnetic plate 903 drives the conical hairbrush 905 to synchronously move in the yielding hole 907, a plurality of groups of reset springs 911 are uniformly arranged on the side wall of the fixed electromagnetic plate 902, the other end of the reset spring 911 is fixedly connected with the side wall of the sliding electromagnetic plate 903, the reset springs 911 are positioned on the outer surface of the conical hairbrush 905, and the elastic reset performance of the sliding electromagnetic plate 903 is further improved by the arrangement of the reset springs 911, and the moving stability of the sliding electromagnetic plate 903 is further ensured.

The opposite side of fixed electromagnetic plate 902 is equipped with filter plate 904, and filter plate 904 inside evenly is equipped with multiunit filtration pore 906, and filtration pore 906 and circular cone brush 905 assorted, filter plate 904 block the tip of through-hole 912 and filter, prevent that impurity etc. of latex bucket inner wall from getting into inside the through-hole 912 along filtration pore 906 and causing the pollution, and circular cone brush 905 moves the time synchronization at filtration pore 906 inside to carry out the jam to filtration pore 906, reduce along filtration pore 906 exhaust wash liquid volume, correspond the washing effect of adjusting the latex bucket inner wall.

The end of the filter plate 904, which is far away from the central shaft 701, is provided with a distance sensor, the distance sensor is used for detecting a distance value between the side wall of the filter plate 904 and the inner wall of the latex barrel, when impurities exist on the inner wall of the latex barrel, the distance value detected by the distance sensor is reduced, the control component controls the power-on current of the fixed electromagnetic plate 902 to be increased, the magnetic repulsive force applied by the fixed electromagnetic plate 902 to the sliding electromagnetic plate 903 to be increased, and then the sliding electromagnetic plate 903 stretches the reset spring 911 and moves towards the end far away from the fixed electromagnetic plate 902, and the sliding electromagnetic plate 903 drives the conical hairbrush 905 to synchronously move.

The diameter of the conical brush 905 gradually increases from the end to the other end of the sliding magnetic plate 903, when the conical brush 905 moves reversely, the blocking area of the filtering hole 906 is increased, the spraying amount of cleaning liquid in the through hole 912 is reduced along the filtering hole 906, the side walls of the side frames 901 are respectively provided with a scraping plate 909, when the scraping plates 909 are mutually attached to the inner wall of the latex barrel, impurities on the inner wall of the latex barrel can be scraped by means of the scraping plates 909, the distance between the fixed electromagnetic plate 902 and the opposite end surfaces of the filter plate 904 is constant, the volumes of the cleaning liquid flowing in the through hole 912 are the same, the sliding magnetic plate 903 has the weight, when the sliding magnetic plate 903 moves, the acting force position applied by the sliding magnetic plate 903 to the inner side frames 901 is changed, the gravity direction of the corresponding side frames 901 is changed, and when the moving distance of the two groups of the sliding magnetic plates 903 is different, the corresponding driving side frames 901 to rotate at the top of the movable balls 808, not only the square structure of the latex barrel can be matched, but also the inner walls of the latex barrel can be scraped by the aid of the rotation of the side frames 901, the cleaning effect of the inner wall of the latex barrel is improved, the filtering hole 906 is identical to the inner diameter of the filter hole 903, and the conical brush 905 is furthest matched with the conical brush 905 when the conical brush 905 is moved to the end of the conical brush 905, and the working procedure is completed, and the end of the conical brush is reversely moved, and accordingly, when the filter hole is closed, and the filter hole is moved, and the filter is formed, and the end is the end of the filter is moved.

When the device is used, the latex barrel is installed according to the first embodiment, the central shaft 701 is inserted into the latex barrel along the liquid inlet, the control assembly controls the rotating motor 705 to drive the sleeve 801 to be in a horizontal state, the upper sleeve 801, the lower sleeve 801, the sliding rod 802 and the inner top and inner bottom of the latex barrel are mutually attached, the driving motor 604 is started and drives the central shaft 701 to rotate, the water pump is started and pumps and feeds cleaning liquid in the external water tank into the sliding cavity 804, and simultaneously the sliding rod 802 is driven to move outwards in the sliding cavity 804 under the action of centrifugal force and water pressure, so that the side frame 901 is mutually attached to the inner wall of the latex barrel.

And the center pin 701 rotates and synchronously drives the sleeve 801 to rotate, the sleeve 801 rotates and drives the side frame 901 to rotate through the sliding rod 802, the conical brush 905 in the through hole 912 and the inner wall of the latex barrel are mutually attached and rotated, so that the cleaning function of the inner wall is realized, cleaning liquid enters the through hole 912 along the bottom hole 910, and finally, the cleaning liquid is discharged along the plurality of groups of filtering holes 906 to be matched with the conical brush 905 to thoroughly and effectively wash and scrape the inner wall of the latex barrel.

Along with the rotation of the side frame 901 and the square structure of the latex barrel, the distance between the side frame 901 and the inner wall of the latex barrel is continuously changed, for example, when the side frame 901 is parallel to the inner wall of the latex barrel and continuously rotates, the distance between the side frame 901 and the inner wall of the latex barrel is continuously increased, the distance value detected by the distance sensor is increased, in order to ensure that the conical brush 905 cleans the inner wall of the latex barrel, the control component controls the electrified current of the fixed electromagnetic plate 902 to be reduced, the magnetic repulsive force applied by the fixed electromagnetic plate 902 to the sliding electromagnetic plate 903 is reduced, the sliding electromagnetic plate 903 is driven to move towards the end close to the fixed electromagnetic plate 902 under the action of the elastic force of the reset spring 911, the sliding magnetic plate 903 drives a plurality of groups of conical brushes 905 to synchronously move, the conical brushes 905 move towards the end close to the inner wall of the latex barrel in the filter hole 906, and then the conical brushes 905 are in a mutually attached state with the inner wall of the latex barrel.

Meanwhile, the side frame 901 continuously rotates along with the rotation of the central shaft 701, the distance between the two ends of the side frame 901 and the inner wall of the latex barrel can be changed by means of the square structure of the side frame 901, the distance values detected by the two corresponding groups of distance sensors are changed, the distance values detected by the distance sensors which are the same with the rotation direction are larger, the control component controls the electrifying currents of the two groups of fixed electromagnetic plates 902 to be different, the electrifying current of the fixed electromagnetic plate 902 on one side with the larger distance value detected by the distance sensors is smaller, the magnetic repulsive force of the fixed electromagnetic plate 902 to the sliding magnetic plate 903 is smaller, the sliding magnetic plate 903 drives the conical hairbrush 905 to move to be smaller, meanwhile, the side frame 901 is inclined on the side by means of the counterweight action of the sliding magnetic plate 903, the side frame 901 is enabled to rotate near the inner wall end of the latex barrel, accordingly, the side frame 901 is enabled to rotate on the top of the movable ball 808 while the movement of the sliding rod 802 is guaranteed, the distance between the side frame 901 and the inner wall of the latex barrel is further enabled to be in a constant value, the distance value detected by the distance sensor is still equal to the preset distance value, and the preset distance value detected by the distance sensor is guaranteed to the inner wall of the side frame 901, and the latex barrel is flushed.

When larger impurities exist on the inner wall of the latex barrel, the impurities cannot be removed rapidly and efficiently only by cleaning of the conical hairbrush 905 and flushing of the cleaning liquid, at the moment, the distance value detected by the distance sensor is continuously reduced, then the energizing current of the fixed electromagnetic plate 902 is continuously increased according to the control of the process control assembly, the fixed electromagnetic plate 902 drives the sliding magnetic plate 903 to stretch the connecting spring 805 to move away from the end of the fixed electromagnetic plate 902 through magnetic repulsion force of the sliding magnetic plate 903, the sliding magnetic plate 903 drives the conical hairbrush 905 to move, the conical hairbrush 905 moves along the inner wall of the through hole 912 and reduces the extending length, meanwhile, the blocking area of the conical hairbrush 905 on the filtering holes 906 in the filter plate 904 is continuously increased, the cleaning liquid in the through hole 912 is continuously increased, the water pressure is continuously increased, the sliding rod 802 is driven to move close to the inner wall of the latex barrel by means of the water pressure in the sliding cavity 804, when the conical hairbrush 905 is completely moved to the inner wall of the through hole 912, the scraping plate 909 is in mutual extrusion contact with the inner wall of the latex barrel, at the moment, the larger impurities attached to the inner wall of the latex barrel are scraped by the scraper 909, the larger impurities are effectively improved, meanwhile, the cleaning liquid is further scraped by the scraping effect is improved by the large impurities by the scraping effect of the impurities along the filtering holes.

When the scraping is finished, the distance value detected by the distance sensor is increased to the initial value again, and then the control component controls the energizing current of the fixed electromagnetic plate 902 to be reduced to the initial value continuously, and the conical brush 905 slides out again along the through hole 912 and washes and cleans the inner wall of the latex barrel.

And along with conical brush 905 moving to the inside of through-hole 912 near center pin 701 end in filtering hole 906, the open area of filtering hole 906 constantly reduces, and the velocity of flow that the washing liquid of inside through-hole 912 towards the latex barrel inner wall along filtering hole 906 constantly increases, and the smaller the open area of filtering hole 906, the bigger the impact velocity of flow of washing liquid, then the washing effect of washing liquid to latex barrel inner wall impurity is stronger, consequently take place pulse variation and carry out irregular washing to latex barrel inner wall impurity under the regulating action of filtering hole 906 with the help of the washing liquid, improve cleaning efficiency and the washing effect to latex barrel inner wall.

When cleaning larger impurities at a certain position for many times, the scraper 909 cannot clean the larger impurities, and the distance value detected by the distance sensor at the position is smaller than the preset distance value, then the control assembly controls the power-on current of the fixed electromagnetic plate 902 to be continuously increased and reduced, the magnetic force of the fixed electromagnetic plate 902 to the sliding magnetic plate 903 drives the sliding magnetic plate 903 to continuously reciprocate in the through hole 912, the sliding magnetic plate 903 drives the conical brush 905 to continuously reciprocate and impact and crush the larger impurities, and meanwhile the scraper 909 is driven to impact and crush the larger impurities under the action of water pressure in the through hole 912, and the cleaning liquid matched with the pulse further improves the flushing effect.

After the inner wall of the latex barrel is washed, the control component stops the water pump, so that cleaning fluid does not circulate in the through hole 912, the outer surface of the conical brush 905 is required to be cleaned at first, then the control component controls the electrifying current of the fixed electromagnetic plate 902 to reach the maximum value, the magnetic repulsive force of the fixed electromagnetic plate 902 to the sliding magnetic plate 903 enables the sliding magnetic plate 903 to drive the conical brush 905 to reversely move to the maximum value, and the conical brush 905 thoroughly and effectively scrapes and cleans impurities and the like attached to the outer surface of the conical brush 905 under the action of the elastic sealing ring 908, so that the influence on the cleaning of the subsequent latex barrel is avoided.

However, because the cleaning solution is attached to the inner wall of the latex barrel, if the cleaning solution is directly used and can pollute the latex barrel, the control component controls the driving motor 604 to continuously work at the moment, the central shaft 701 continuously rotates, the central shaft 701 drives the side frame 901 at the top of the other end to rotate through the sleeve 801 and the sliding rod 802, meanwhile, the control component controls the energizing current of one group of fixed electromagnetic plates 902 in the two groups of through holes 912 to reach the maximum value, the other group of fixed electromagnetic plates 902 are powered off, the sliding electromagnetic plates 903 are driven by the magnetic repulsive force of the fixed electromagnetic plates 902 to move to the maximum value far away from the ends of the fixed electromagnetic plates 902, the moving distances of the two groups of sliding electromagnetic plates 903 in the through holes 912 are different, the side frame 901 rotates at the top of the movable ball 808 due to the centrifugal force of the sliding magnetic plates 903, the side frame 901 is in an inclined state, the state is matched with the side frame 901 to rotate, wind power can be effectively applied to the inner wall of the latex barrel, wind power can be dehumidified by wind power, the inner wall of the latex barrel is further improved, and the drying property and stability of the latex barrel after cleaning are further improved, and the influence on subsequent use is avoided.

However, after the inner wall of the latex barrel is washed and dehumidified, the control component controls the driving motor 604 to stop working, the rotating motor 705 reversely works to drive the sleeve 801 and the side frame 901 to restore to the original state, in order to further improve the side frame 901 to rotate towards the end close to the central shaft 701 and to be attached to the side wall of the central shaft 701, an electromagnet can be arranged on the side wall of the central shaft 701 and at the position corresponding to the side frame 901 in actual use, after the inner wall of the latex barrel is cleaned, the control component controls the fixed electromagnetic plate 902 to be powered off, but the electromagnetic plate is powered on, the side frame 901 moves towards the end close to the central shaft 701 and is attached to the side wall of the central shaft 701 by virtue of the magnetic attraction of the electromagnetic plate to the sliding magnetic plate 903, so that the recovery work is completed, the central shaft 701 moves upwards to restore to the original position, and the new latex barrel is replaced, and the above work is repeated.

The device has high cleaning efficiency and good cleaning effect, meets the actual flushing and dehumidification requirements, is simple and efficient to operate, and can adaptively adjust the position and the inclination angle of the side frame 901 according to the square structure of the latex barrel in the flushing process, so that the conical hairbrush 905 and the cleaning liquid can thoroughly and effectively flush and clean the inner wall of the latex barrel, and the device has stronger adaptability, higher stability and better regulation and control performance; meanwhile, when larger impurities are attached to the inner wall of the latex barrel, the scraping plate 909 is tightly attached to the inner wall of the latex barrel by means of the reverse movement of the conical hairbrush 905, and the scraping effect of the scraping plate 909 on the larger impurities on the inner wall of the latex barrel is further improved by means of the hydraulic pressure; and after the washing is completed, the side frames 901 are obliquely rotated at the top of the movable ball 808 by means of different moving distances of the two groups of sliding magnetic plates 903, so that wind force is generated, the inner wall of the latex barrel is dehumidified and dried, the cleanliness and the dryness of the latex barrel are effectively improved, the subsequent use effect of the latex barrel is ensured, and meanwhile, the effects of saving water and cleaning time are effectively realized, and the effects of saving energy, reducing emission and protecting environment are realized.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The automatic latex barrel cleaning device comprises a bottom plate, wherein the top of the bottom plate is rotationally connected with a workbench, and one side of the bottom plate is provided with a control assembly, and the automatic latex barrel cleaning device is characterized in that two sides of the bottom plate are provided with adjusting assemblies, the bottoms of the adjusting assemblies are provided with rotating assemblies, the outer surfaces of the rotating assemblies are uniformly rotationally connected with a plurality of groups of sliding assemblies, and the output ends of the sliding assemblies are movably connected with cleaning assemblies;

The rotating assembly comprises a central shaft, a circulation cavity is formed in the central shaft, and a plurality of groups of hinge shafts are uniformly connected to the outer surface of the central shaft in a rotating manner;

the sliding assembly comprises a sleeve, one side of the sleeve is fixedly connected with the outer surface of the hinge shaft, a sliding cavity is formed in the sleeve, a sliding rod is connected in the sliding cavity in a sliding mode, a movable ball is arranged at the other end of the sliding rod, and a transverse hole is formed in the sliding rod;

the cleaning assembly comprises a side frame, two groups of through holes are symmetrically formed in the side frame, the bottom of the side frame is movably connected with the top of the movable ball, fixed electromagnetic plates are arranged at the center of the inner wall of each through hole, multiple groups of abdicating holes are uniformly formed in the fixed electromagnetic plates, conical brushes are slidably connected in the abdicating holes, a sliding magnetic plate is arranged at one end, close to a central shaft, of each fixed electromagnetic plate, one side of each sliding magnetic plate is fixedly connected with the end of each conical brush, a filter plate is arranged at the other side of each fixed electromagnetic plate, multiple groups of filter holes are uniformly formed in the filter plate, the filter holes are matched with the conical brushes, distance sensors are arranged at one ends, far away from the central shaft, of the filter plates, and scraping plates are arranged on the side walls of the side frames.

2. The automatic latex tank cleaning device according to claim 1, wherein the control assembly is used for electrically controlling the electric elements, the latex tank is arranged at the top of the workbench, the liquid inlet is formed in the center shaft of the top of the latex tank, the liquid outlet is formed in the bottom of one side of the latex tank, and the distance sensor is used for detecting the distance value between the side wall of the filter plate and the inner wall of the latex tank.

3. The automatic latex barrel cleaning device according to claim 1, wherein a rotating shaft is rotatably connected to the top of one side of the bottom plate through a bearing, the outer surface of the rotating shaft is fixedly connected to the bottom of one side of the workbench, a driving air rod is arranged at the top of one side of the bottom plate far away from the rotating shaft, the top output end of the driving air rod is fixedly connected with the bottom of the workbench, and a sliding slope is arranged at the top of one side of the workbench far away from the driving air rod.

4. The automatic latex tank cleaning device according to claim 1, wherein the adjusting assembly comprises two groups of fixing blocks, one side of each fixing block is fixedly connected with the side wall of the bottom plate, an electric push rod is arranged at the top of each fixing block, a top plate is arranged at the top of each electric push rod, a driving motor is arranged at the center of the bottom of each top plate, a fixed shaft is arranged at the bottom output end of each driving motor, and the bottom of each fixed shaft is fixedly connected with the top of the central shaft.

5. The automatic latex tank cleaning device according to claim 4, wherein the outer surface of the fixing shaft is connected with a sealing circulation ring in a sealing and rotating manner, a top groove is formed in the inner bottom of the fixing shaft, the inner wall of the sealing circulation ring is communicated with the inner cavity of the top groove in a sealing manner, the bottom of the top groove is communicated with the top of the circulation cavity, the bottom of the top plate is communicated with a water pipe, the water inlet end of the water pipe is communicated with an external water tank through a water pump, and the water outlet end of the water pipe is communicated with the inner cavity of the sealing circulation ring.

6. The automatic latex tank cleaning device according to claim 1, wherein a plurality of groups of rotating motors are arranged on the outer surface of the central shaft, the output ends of the rotating motors are fixedly connected with the end parts of the hinge shafts, one ends of the hinge shafts, which are far away from the rotating motors, are rotatably connected with side plates through bearings, and the side walls of the side plates are fixedly connected with the side walls of the central shaft.

7. The automatic latex barrel cleaning device according to claim 1, wherein one end of the sliding cavity is communicated with a first hose, the other end of the first hose is communicated with the circulation cavity, a connecting spring is arranged on the side wall of the sliding cavity, the other end of the connecting spring is fixedly connected with the side wall of the sliding rod, the bottoms of the sleeve and the sliding rod are all in the same horizontal plane, an elastic baffle is arranged at the bottom of the side wall of the sliding cavity, and the other end of the elastic baffle is fixedly connected with the bottom of the side wall of the sliding rod.

8. The automatic latex tank cleaning device according to claim 7, wherein one end of the transverse hole is communicated with the sliding cavity, the other end of the transverse hole is communicated with the second hose, bottom holes are formed in the bottoms of the side frames, one end of each bottom hole is communicated with the second hose, the other end of each bottom hole is communicated with the through hole and one end far away from the central shaft, and multiple groups of side holes are formed in the side walls of the sliding cavity and the transverse hole.

9. The automatic latex barrel cleaning device according to claim 1, wherein an elastic sealing ring is arranged on the inner wall of the abdication hole, the inner wall of the elastic sealing ring is in sealing sliding connection with the outer surface of the conical brush, a plurality of groups of reset springs are uniformly arranged on the side wall of the fixed electromagnetic plate, the other end of each reset spring is fixedly connected with the side wall of the sliding magnetic plate, the reset springs are positioned on the outer surface of the conical brush, and the magnetism of the opposite end surfaces of the fixed electromagnetic plate and the sliding magnetic plate is the same.

10. The automatic latex tank cleaning device according to claim 1, wherein the diameter of the conical brush gradually increases from one end to the other end of the sliding magnetic plate, the distance between the opposite end surfaces of the fixed electromagnetic plate and the filter plate is constant, the sliding magnetic plate has weight, and the inner diameters of the filter holes and the abdication holes are the same and are matched with the maximum outer diameter of the conical brush.