CN117145837A

CN117145837A - Hydraulic accessory quick replacement device of hydraulic excavator

Info

Publication number: CN117145837A
Application number: CN202311414052.9A
Authority: CN
Inventors: 沈栋炼; 王均
Original assignee: Jiangsu Feiter Hydraulic Machinery Co ltd
Current assignee: Jiangsu Feiter Hydraulic Machinery Co ltd
Priority date: 2023-10-30
Filing date: 2023-10-30
Publication date: 2023-12-01
Anticipated expiration: 2043-10-30
Also published as: CN117145837B

Abstract

The application relates to a hydraulic excavator technology, which is used for solving the problem that the hydraulic system is adversely affected by falling of attachments on the outer side of a filter and continuous use of hydraulic oil reaching the service life when external dust and impurities are doped during the replacement of hydraulic accessories, in particular to a hydraulic accessory quick replacement device of a hydraulic excavator, which comprises a hydraulic oil tank assembly; according to the application, the replacement bin is sleeved at the upper end of the hydraulic oil bin, so that the filter of the hydraulic accessory is not contacted with the external environment in the replacement process, the filter is not influenced by dust and impurities in the external environment, the adhesion degree between the attachment on the outer side and the filter is increased through the arrangement of the oil storage bin, the drop is prevented, the impurity quantity condition contained in the hydraulic oil and the viscosity condition of the hydraulic oil are judged through the pressure data change of the pressure sensor, the hydraulic oil with more impurities or larger viscosity of the hydraulic oil is replaced, and the hydraulic oil with the service life reaching the service life is prevented from being used continuously, so that the adverse effect is caused on other equipment of the hydraulic system.

Description

Hydraulic accessory quick replacement device of hydraulic excavator

Technical Field

The application relates to the technology of hydraulic excavators, in particular to a hydraulic accessory quick replacement device of a hydraulic excavator.

Background

The hydraulic excavator is a multifunctional machine, is widely applied to the mechanical construction of hydraulic engineering, transportation, electric power engineering, mine mining and the like, and plays an important role in relieving heavy physical labor, ensuring engineering quality, accelerating construction speed and improving labor productivity;

in the prior art, when the hydraulic accessories of the hydraulic excavator are replaced, the hydraulic accessories are taken out and replaced after the oil bin cover plate is taken down, so that dust and impurities flying with wind in the external environment are easy to drop into the hydraulic oil bin, fine particle impurities are difficult to remove by a filter, and the conditions of hydraulic system faults, increased component abrasion and the like are caused; when the filter is used for carrying out the hydraulic oil filtering operation in the hydraulic oil bin, part of the filtered hydraulic oil dirt is attached to the outer surface of the filter under the action of the hydraulic oil pressure, when accessories are replaced in the hydraulic oil bin, the pressure release operation is carried out in the hydraulic oil bin, and after the pressure release operation, part of attachments fall into the hydraulic oil in the lower part, so that the filtering speed is easily influenced by the blockage of the attachments after the new filter is put into use.

The application provides a solution to the technical problem.

Disclosure of Invention

The application aims to ensure that a filter of a hydraulic accessory is not contacted with the external environment in the replacement process by sleeving the replacement bin at the upper end of the hydraulic oil bin, the filter is not influenced by dust and impurities in the external environment, the adhesion degree between the external attachment and the filter is increased by arranging the oil storage bin, the drop is prevented, the impurity quantity condition contained in the hydraulic oil and the viscosity condition of the hydraulic oil are judged by the pressure data change of the pressure sensor, the hydraulic oil with more impurities or higher viscosity of the hydraulic oil is replaced, the continued use of the hydraulic oil with longer service life is prevented, the adverse effect on other equipment of a hydraulic system is caused, the problems that the external dust and impurities are doped when the hydraulic accessory is replaced, the dropping of the attachment outside the filter and the continued use of the hydraulic oil with longer service life cause adverse effect on the hydraulic system are solved, and the hydraulic accessory quick replacement device of the hydraulic accessory of the hydraulic excavator is provided.

The aim of the application can be achieved by the following technical scheme:

the utility model provides a hydraulic accessory quick replacement device of hydraulic excavator, includes hydraulic tank subassembly, hydraulic tank subassembly includes the hydraulic oil storehouse, the inside intermediate position department of hydraulic oil storehouse is provided with the filter, the oil storehouse apron is installed to hydraulic oil storehouse upper end, oil storehouse apron lower surface corresponds filter position department installs the installation spring, spacing buckle is installed to the installation spring lower extreme, hydraulic oil storehouse lower surface intermediate position department integrated into one piece has oil drain pipe, hydraulic oil storehouse lateral wall one side integrated into one piece has the oil feed pipe, the dirt subassembly is scraped to filter lateral wall below, hydraulic tank subassembly upper end is provided with the change subassembly, hydraulic tank subassembly rear is provided with the pumping unit, the change subassembly is including changing the storehouse, change storehouse lateral wall one side integrated into one piece has old product storehouse, change storehouse lateral wall opposite side integrated into one piece has new product storehouse, change storehouse rear surface intermediate position department integrated into one piece has the annex storehouse.

As a preferred implementation mode of the application, the dirt scraping assembly comprises a dirt scraping ring, a plurality of communicating holes which are uniformly distributed are formed in the upper surface of the dirt scraping ring, a rotating plate is rotatably connected to the upper surface of the dirt scraping ring corresponding to the position of the communicating holes, a traction wire is arranged at the middle position of the upper surface of the dirt scraping ring, which is far away from one side of the rotating plate, corresponding to the position of the communicating holes, a jogging groove is formed in the outer surface of the dirt scraping ring in four directions, and limiting strips are arranged at the positions of the inner side wall of the hydraulic oil bin, which are corresponding to the jogging groove.

As a preferred implementation mode of the application, regulating grooves are formed below the outer side walls of the accessory bin, the new bin and the old bin, regulating plates are slidably connected to the positions of the accessory bin, the new bin and the old bin corresponding to the regulating grooves, a limiting ring is integrally formed on one side of the regulating plates, which is positioned inside the accessory bin, the new bin and the old bin, an operation hole is formed in the middle position of the lower surface inside the replacement bin, and a connecting ring is integrally formed on the lower surface of the replacement bin corresponding to the position of the operation hole.

As a preferred implementation mode of the application, an adjusting rod is slidably connected to the middle position of the upper surface of the replacing bin, an adsorption block is arranged at the lower end of the adjusting rod, telescopic rods are arranged on the outer side wall of the adsorption block in four directions, a cleaning ring is arranged on the upper surface of the inner part of the adjusting rod corresponding to the position of the adjusting rod, a first control button is arranged at the upper end of the adjusting rod, and bin plates are arranged at the upper ends of the new bin and the old bin.

As a preferred implementation mode of the application, one side of the outer side wall of the oil drain pipe is provided with a connecting pipe, the middle position of the connecting pipe is provided with a impurity filtering bin, one end of the connecting pipe, which is far away from the hydraulic oil bin, is provided with an oil storage bin, the outer side wall of the oil drain pipe is provided with a through hole corresponding to the position of the connecting pipe, two filter screens which are distributed up and down are arranged in the impurity filtering bin, and an outer frame of the filter screens is connected with a connecting piece on the inner wall of the impurity filtering bin through a traction spring.

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

1. the hydraulic accessory filter is not contacted with the external environment in the replacement process by sleeving the replacement bin at the upper end of the hydraulic oil bin, so that the hydraulic accessory filter is not influenced by dust and impurities in the external environment, the hydraulic oil in the hydraulic oil bin cannot be changed due to the external environment, dirt of the hydraulic oil due to doping of the dust and impurities is not caused, and the conditions of hydraulic system faults, increased component wear and the like are caused in the subsequent use process of the hydraulic system;

2. through the arrangement of the oil storage bin, hydraulic oil in the hydraulic oil bin can be transmitted to the inside of the oil storage bin through the connecting pipe under the action of internal oil pressure, in the hydraulic oil transmission process, the adhesive force between the attachment on the outer side and the filter is increased, the attachment is prevented from falling off, the dirt scraping ring below the filter can prevent the falling attachment from falling into the hydraulic oil bin below, and the falling attachment is prevented from affecting the filtering effect of the newly installed filter;

3. the pressure data of the pressure sensor at the filter screen position changes when the hydraulic oil passes through the filter screen inside the filtering impurity bin, the impurity quantity condition contained in the hydraulic oil and the viscosity condition of the hydraulic oil are judged, the hydraulic oil with more impurity quantity or larger viscosity of the hydraulic oil is replaced, and the hydraulic oil with the service life is prevented from being used continuously, so that adverse effects are caused on other equipment of a hydraulic system.

Drawings

The present application is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a main block diagram of the present application;

FIG. 2 is a block diagram of the impurity filtering bin of the present application;

FIG. 3 is a schematic view of the internal construction of the hydraulic oil warehouse of the present application;

FIG. 4 is a block diagram of a dirt scraping assembly of the present application;

FIG. 5 is a block diagram of a replacement assembly of the present application;

FIG. 6 is a diagram of a connection ring structure of the present application;

in the figure: 1. a hydraulic oil tank assembly; 11. a hydraulic oil bin; 12. a filter; 13. an oil inlet pipe; 14. a sump cover plate; 15. installing a spring; 16. limiting buckle plates; 17. a dirt scraping assembly; 171. a dirt scraping ring; 172. a rotating plate; 173. a communication hole; 174. a traction wire; 175. a fitting groove; 18. an oil drain pipe; 2. replacing the assembly; 21. an adjusting rod; 22. changing a bin; 23. an accessory bin; 24. a new product bin; 25. an adjustment tank; 26. an adsorption block; 27. an operation hole; 28. a limiting ring; 29. an adjusting plate; 210. an old product bin; 211. a bin plate; 212. a telescopic rod; 213. cleaning the ring; 214. a connecting ring; 3. an oil pumping assembly; 31. a connecting pipe; 32. filtering the impurity bin; 33. and an oil storage bin.

Detailed Description

The technical solutions of the present application will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1:

referring to fig. 1-6, a hydraulic accessory quick replacement device of a hydraulic excavator comprises a hydraulic oil tank assembly 1, wherein the hydraulic oil tank assembly 1 comprises a hydraulic oil bin 11, a filter 12 is arranged at the middle position inside the hydraulic oil bin 11, an oil bin cover plate 14 is arranged at the upper end of the hydraulic oil bin 11, a mounting spring 15 is arranged at the position, corresponding to the filter 12, of the lower surface of the oil bin cover plate 14, a limiting buckle plate 16 is arranged at the lower end of the mounting spring 15, an oil discharge pipe 18 is integrally formed at the middle position of the lower surface of the hydraulic oil bin 11, and an oil inlet pipe 13 is integrally formed at one side of the outer side wall of the hydraulic oil bin 11;

the dirt scraping assembly 17 is arranged below the outer side wall of the filter 12, the replacement assembly 2 is arranged at the upper end of the hydraulic oil tank assembly 1, the oil pumping assembly 3 is arranged behind the hydraulic oil tank assembly 1, the replacement assembly 2 comprises a replacement bin 22, an old product bin 210 is integrally formed on one side of the outer side wall of the replacement bin 22, a new product bin 24 is integrally formed on the other side of the outer side wall of the replacement bin 22, an accessory bin 23 is integrally formed on the middle position of the rear surface of the replacement bin 22, the filter 12 can be accommodated in the inner spaces of the accessory bin 23, the new product bin 24 and the old product bin 210, regulating grooves 25 are formed below the outer side walls of the accessory bin 23, the new product bin 24 and the old product bin 210, regulating plates 29 are slidably connected to the positions of the accessory bin 23, the new product bin 24 and the old product bin 210 corresponding to the regulating grooves 25, limiting rings 28 are integrally formed on one side of the inner parts of the accessory bin 23, the new product bin 24 and the old product bin 210, an operation hole 27 is formed in the middle position of the inner lower surface of the replacement bin 22, a connecting ring 214 is integrally formed at the position of the lower surface of the replacement bin 22 corresponding to the operation hole 27, the connecting ring 214 can be directly sleeved outside the upper end of the hydraulic oil bin 11, an adjusting rod 21 is slidably connected at the middle position of the upper surface of the replacement bin 22, an adsorption block 26 is arranged at the lower end of the adjusting rod 21, the adsorption of the adsorption block 26 is controlled by a first control button arranged at the upper end of the adjusting rod 21, telescopic rods 212 are arranged on the outer side walls of the adsorption block 26 in four directions, a cleaning ring 213 is arranged at the position of the inner upper surface of the adjusting rod 21 corresponding to the adjusting rod 21, the cleaning ring 213 is L-shaped, a shovel plate which inclines downwards is arranged on one side of the lower surface of the L-shaped cleaning ring 213, the first control button is arranged at the upper end of the adjusting rod 21, bin plates 211 are arranged at the upper ends of the new bin 24 and the old bin 210, the bin plate 211 seals the upper openings of the new bin 24 and the old bin 210;

in the prior art, when the hydraulic accessories of the hydraulic excavator are replaced, the hydraulic accessories are taken out and replaced in the hydraulic oil bin 11 after the oil bin cover plate 14 is taken down, so that dust and impurities flying with wind in the external environment are easy to drop into the hydraulic oil bin 11, fine particle impurities are difficult to remove by the filter 12, and the conditions of hydraulic system faults, increased component wear and the like are caused;

when a worker performs hydraulic accessory replacement operation of the hydraulic excavator, after cleaning the position of the oil bin cover plate 14, loosening screws complete dismantling of the oil bin cover plate 14, then the oil bin cover plate 14, the mounting spring 15 and the limiting buckle 16 are connected together through the connection of the connecting ring 214 and the hydraulic oil bin 11, the worker can slide the adjusting rod 21 downwards to enable the adsorption block 26 at the lower end of the adjusting rod 21 to be in contact with the oil bin cover plate 14, then the first control button is pressed to enable the adsorption block 26 to adsorb the oil bin cover plate 14, and slide along with the upward position of the adjusting rod 21 in the upward sliding process of the adjusting rod 21, when a second scale mark on the adjusting rod 21 is level with the upper surface of the replacing bin 22, the adjusting rod 21 stops sliding upwards, the staff can push the adjusting plate 29 exposed outside the accessory bin 23 to move towards the inside of the accessory bin 23 and stop when the accessory bin 23 cannot be pushed to move, the adjusting rod 21 loosens and slides downwards, after the limit buckle plate 16 falls onto the adjusting plate 29, the adjusting rod 21 stops sliding downwards, then the control button I at the upper end of the adjusting rod 21 is pushed again to enable the adsorption block 26 to lose adsorption capacity, the oil bin cover plate 14, the mounting spring 15 and the limit buckle plate 16 adsorbed on the adsorption block 26 at the lower end of the adjusting rod 21 can fall onto the adjusting plate 29 in the accessory bin 23, the adjusting plate 29 in the accessory bin 23 is pulled outwards after that, the oil bin cover plate 14, the mounting spring 15 and the limit buckle plate 16 move into the accessory bin 23, the oil bin cover plate 14, the mounting spring 15 and the limit buckle plate 16 cannot be separated from the adjusting plate 29 under the limit of the limit ring 28 on the adjusting plate 29, and then the adjusting rod 21 is slid downwards again, and stop sliding down when the first scale mark on the adjusting rod 21 is flush with the upper surface of the replacing bin 22, the second control button on the outer side wall of the adjusting rod 21 is pressed to enable the telescopic rods 212 on the four directions on the outer side of the absorbing block 26 to extend synchronously, waiting for a period of time, after one end of the telescopic rods 212 far away from the absorbing block 26 contacts with the inner wall of the filter 12, lifting the filter 12 through the adjusting rod 21, stopping sliding up the adjusting rod 21 when the third scale mark on the adjusting rod 21 is flush with the upper surface of the replacing bin 22, pushing the adjusting plate 29 in the old bin 210 inwards, stopping pushing when the scale mark on the adjusting plate 29 is flush with the outer side of the old bin 210, shortening the telescopic rods 212 on the outer side of the absorbing block 26, placing the fetched filter 12 on the adjusting plate 29 of the old bin 210, withdrawing and moving outwards along with the adjusting plate 29 to the inside of the old bin 210, the adjusting plate 29 in the new product bin 24 moves to the position right below the adsorption block 26 under the pushing, after the telescopic rod 212 on the adsorption block 26 stretches, the filter 12 placed on the adjusting plate 29 in the new product bin 24 is clamped, after the adjusting plate 29 in the new product bin 24 is withdrawn, the filter 12 in the new product bin 24 is moved downwards by the adjusting rod 21 and placed in the hydraulic oil bin 11, the adsorption block 26 at the lower end of the rear adjusting rod 21 adsorbs the oil bin cover plate 14, the mounting spring 15 and the limiting buckle plate 16 and places the three on the upper end of the filter 12, after the replacement bin 22 is removed, the bolt fixing of the oil bin cover plate 14 is carried out, the whole mounting process is not contacted with the external environment, dust and impurities of the external environment can be prevented from causing dirt of the hydraulic oil, and the conditions of hydraulic system faults, component abrasion aggravation and the like are prevented.

Example 2:

referring to fig. 2 and 4, a connecting pipe 31 is installed on one side of the outer side wall of the oil drain pipe 18, a impurity filtering bin 32 is installed in the middle of the connecting pipe 31, a miniature pump is further arranged at the lower end of the impurity filtering bin 32, one end of a pipeline of the pump extends into the connecting pipe 31, the other end of the pipeline extends into an oil storage bin 33, the oil storage bin 33 is installed at one end, far away from the hydraulic oil bin 11, of the connecting pipe 31, through holes are formed in the position, corresponding to the connecting pipe 31, of the outer side wall of the oil drain pipe 18, two filter screens distributed up and down are installed in the impurity filtering bin 32, an outer side frame of the filter screen is connected with a connecting piece on the inner wall of the impurity filtering bin 32 through a traction spring, and a pressure sensor is arranged at the position, corresponding to the traction spring, of the connecting piece;

the dirt scraping assembly 17 comprises a dirt scraping ring 171, the outer diameter of the dirt scraping ring 171 is the same as the inner diameter of the hydraulic oil bin 11, dirt falling on a filter 12 in the hydraulic oil bin 11 is prevented from falling below the hydraulic oil bin 11 by the blocking of the dirt scraping ring 171, a plurality of uniformly distributed communication holes 173 are formed in the upper surface of the dirt scraping ring 171, a rotating plate 172 is rotatably connected to the position of the upper surface of the dirt scraping ring 171 corresponding to the communication holes 173, the rotating plate 172 can be rotatably opened after receiving force from bottom to top, the communication holes 173 are opened, the communication holes 173 are blocked by the force from top to bottom or the action of gravity of the rotating plate 172, a traction wire 174 is arranged at the middle position of the upper surface of the dirt scraping ring 171, which is far away from one side of the rotating plate 172, the rotation angle of the rotating plate 172 is limited by the traction wire 174, the embedding grooves 175 are formed in four directions on the outer surface of the dirt scraping ring 171, the dirt scraping ring 171 cannot fall from the gaps to the lower side in the vertical moving process of the position, and limit strips 175 are arranged at the positions corresponding to the inner side walls of the hydraulic oil bin 11;

in the prior art, when the filter 12 filters hydraulic oil in the hydraulic oil bin 11, part of filtered hydraulic oil dirt is attached to the outer surface of the filter 12 under the action of hydraulic oil pressure, when accessories are replaced in the hydraulic oil bin 11, pressure release operation is needed to be carried out in the hydraulic oil bin 11, and after the pressure release operation, part of attached matter falls into the hydraulic oil below, so that the filtering speed is easily affected by blockage of attached matter after the new filter 12 is put into use;

before the pressure relief operation is carried out, the valve below the oil drain pipe 18 is closed firstly, then the valve on the connecting pipe 31 is opened, under the action of the oil pressure in the hydraulic oil bin 11, the internal hydraulic oil rapidly flows into the connecting pipe 31 from the position of the oil drain pipe 18 below after passing through the filter 12, and reaches the inside of the oil storage bin 33 after passing through the connecting pipe 31 and the impurity filtering bin 32, after the pressure in the oil storage bin 33 and the hydraulic oil bin 11 reaches equilibrium, the pumping pump in the impurity filtering bin 32 works, the residual hydraulic oil in the hydraulic oil bin 11 is pumped into the oil storage bin 33, when the hydraulic oil passes through the position of the filter 12, all impurities in the hydraulic oil are filtered, the adhesion force between the adhesion matters and the filter 12 is increased under the action of the pressure, the filter 12 is not easy to break away, the fallen adhesion matters are easy to be blocked by the lower dirt scraping ring 171, the adhesion matters falling onto the dirt scraping ring 171 can be taken out along with the taking out of the filter 12 when the filter 12 is removed, the filter 12 is installed downwards, the rotation speed of the filter 172 is not influenced by the rotation plate 12 when the filter 12 is installed downwards.

Example 3:

referring to fig. 1-6, a control box is arranged on the outer side wall of the replacement bin 22 and above the accessory bin 23, and an intelligent measurement assembly is arranged in the control box;

the data acquisition module of the intelligent detection assembly acquires pressure data when the filter screen in the oil storage bin 33 filters hydraulic oil, and transmits the acquired pressure data to the data acquisition module of the intelligent detection assembly;

when the digital processing module receives the pressure data transmitted by the digital acquisition module, carrying out extremum removal and averaging on the pressure data acquired in each time period to obtain pressure average values, sequencing the obtained pressure average values according to the acquisition time, drawing coordinate points in a binary coordinate system of the pressure average values and the acquisition time, connecting adjacent coordinate points, and calculating the slope of each section of connecting line;

if the slope of each section of connecting line is the same and the slope is zero, judging that the pressure of the hydraulic oil on the filter screen is stable, and no impurity larger than the filter screen holes exists in the hydraulic oil; if the slope of each section of connecting line is the same and is larger than zero, the pressure of the hydraulic oil on the filter screen is determined to be gradually increased, impurities larger than the meshes of the filter screen exist in the hydraulic oil, the impurities are uniformly distributed and more in quantity, and the weight change of the filter screen is compared after the filtering operation is completed; if the slope of each section of connecting line is the same and the slope of the rear section is zero, judging that the pressure of the hydraulic oil on the filter screen gradually increases and then tends to be stable, distributing impurities in the hydraulic oil uniformly and reducing the number of the impurities, and comparing the weight change of the filter screen after the filtering operation is completed;

if the slope of each section of connecting line is different and the connecting line is in an ascending trend, judging that the pressure of the hydraulic oil on the filter screen is gradually increased, and comparing the weight change of the filter screen after the filtering operation is finished because impurities with different sizes exist in the hydraulic oil;

the number of modules are used for calculating the difference value between the front pressure data detected at the filter screen before the filtering operation and the rear pressure data detected at the filter screen after the filtering operation to obtain a pressure change value, and comparing the obtained pressure change value with a first set pressure value and a second set pressure value; setting a second pressure value as pressure data of the filter screen when hydraulic oil with corresponding viscosity passes through the filter screen;

if the pressure change value is greater than or equal to the set pressure value I, judging that more impurities exist in the hydraulic oil and the hydraulic oil needs to be replaced; if the pressure change value is smaller than the first set pressure value, judging that impurities in the hydraulic oil are less, and comparing the pressure change value with the second set pressure value; if the pressure change value is smaller than the second set pressure value, the hydraulic oil is judged to be still usable without replacement.

When the filter is used, before the pressure relief operation is carried out, the valve below the oil drain pipe 18 is closed firstly, then the valve on the connecting pipe 31 is opened, under the action of the oil pressure in the hydraulic oil bin 11, the internal hydraulic oil rapidly flows into the connecting pipe 31 from the position of the lower oil drain pipe 18 after passing through the filter 12 and reaches the inside of the oil storage bin 33 after passing through the connecting pipe 31 and the impurity filtering bin 32, after the pressure in the oil storage bin 33 and the hydraulic oil bin 11 is balanced, the pumping pump in the impurity filtering bin 32 works, the residual hydraulic oil in the hydraulic oil bin 11 is pumped into the oil storage bin 33, when the hydraulic oil passes through the position of the filter 12, all impurities in the hydraulic oil are filtered out, the adhesion force between the adhesion agent and the filter 12 is increased under the action of the pressure, the situation that the filter 12 is not easy to separate is not easy to occur, the fallen adhesion agent is easy to be blocked by the lower dirt scraping ring 171 and is not dropped into the lower hydraulic oil bin 11, the adhesion agent dropped on the dirt scraping ring 171 can be taken out along with the removal of the filter 12 when the filter 12 is dismounted, the filter 12 is placed down, the filter 172 is not influenced by the rotation speed of the filter 12 when the filter is mounted, and the filter 172 is not opened;

when a worker performs hydraulic accessory replacement operation of the hydraulic excavator, after cleaning the position of the oil bin cover plate 14, loosening screws complete dismantling of the oil bin cover plate 14, then the oil bin cover plate 14, the mounting spring 15 and the limiting buckle 16 are connected together through the connection of the connecting ring 214 and the hydraulic oil bin 11, the worker can slide the adjusting rod 21 downwards to enable the adsorption block 26 at the lower end of the adjusting rod 21 to be in contact with the oil bin cover plate 14, then the first control button is pressed to enable the adsorption block 26 to adsorb the oil bin cover plate 14, and slide along with the upward position of the adjusting rod 21 in the upward sliding process of the adjusting rod 21, when a second scale mark on the adjusting rod 21 is level with the upper surface of the replacing bin 22, the adjusting rod 21 stops sliding upwards, the staff can push the adjusting plate 29 exposed outside the accessory bin 23 to move towards the inside of the accessory bin 23 and stop when the accessory bin 23 cannot be pushed to move, the adjusting rod 21 loosens and slides downwards, after the limit buckle plate 16 falls onto the adjusting plate 29, the adjusting rod 21 stops sliding downwards, then the control button I at the upper end of the adjusting rod 21 is pushed again to enable the adsorption block 26 to lose adsorption capacity, the oil bin cover plate 14, the mounting spring 15 and the limit buckle plate 16 adsorbed on the adsorption block 26 at the lower end of the adjusting rod 21 can fall onto the adjusting plate 29 in the accessory bin 23, the adjusting plate 29 in the accessory bin 23 is pulled outwards after that, the oil bin cover plate 14, the mounting spring 15 and the limit buckle plate 16 move into the accessory bin 23, the oil bin cover plate 14, the mounting spring 15 and the limit buckle plate 16 cannot be separated from the adjusting plate 29 under the limit of the limit ring 28 on the adjusting plate 29, and then the adjusting rod 21 is slid downwards again, and stop the gliding when the scale mark on adjusting lever 21 flushes with the upper surface of change storehouse 22, through pressing the control button two on adjusting lever 21 lateral wall, make the telescopic link 212 in four directions in the absorption piece 26 outside synchronous extension, wait for a period of time, after the one end that telescopic link 212 kept away from absorption piece 26 and the inner wall of filter 12 contact, mention filter 12 through adjusting lever 21, when waiting for the scale mark three on adjusting lever 21 to level with the upper surface of change storehouse 22, stop the upwards slip of adjusting lever 21, and promote the regulating plate 29 in the old product storehouse 210 inwards, after the scale mark on regulating plate 29 flushes with the old product storehouse 210 outside, after the telescopic link 212 on the absorption piece 26 shortens, place behind the regulating plate 29 of old product storehouse 210 outside the filter 12 that takes out, along with the outside extraction of regulating plate 29 moves to inside the old product storehouse 210, after the telescopic link 212 on the new product storehouse 24 is in promoting down to the inner wall contact of absorption piece 26, after the telescopic link 212 on the absorption piece 24 is stretched, place the regulating plate 29 in the new product storehouse 24 and place the upper end 12 in the new product storehouse 24 and keep the filter 12 in the storehouse, install the filter cover plate 16 in the new product storehouse 12 and take out after the filter storehouse 12, the filter cover plate 16 is placed in the new product storehouse and the filter storehouse is placed in the filter storehouse 12, the end is placed under the filter cover plate 14 and the filter cover plate 14 is placed in the back in the place after the filter storehouse 12, the filter cover plate is placed under the filter storehouse and the filter cover plate 14 is fixed in the filter end is kept under the condition of the filter storehouse and the filter cover plate 12.

The preferred embodiments of the application disclosed above are intended only to assist in the explanation of the application. The preferred embodiments are not intended to be exhaustive or to limit the application to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the application and the practical application, to thereby enable others skilled in the art to best understand and utilize the application. The application is limited only by the claims and the full scope and equivalents thereof.

Claims

1. The utility model provides a hydraulic accessory quick replacement device of hydraulic excavator, includes hydraulic tank subassembly (1), hydraulic tank subassembly (1) includes hydraulic oil storehouse (11), inside intermediate position department of hydraulic oil storehouse (11) is provided with filter (12), oil storehouse apron (14) are installed to hydraulic oil storehouse (11) upper end, oil storehouse apron (14) lower surface corresponds filter (12) position department installs install spring (15), spacing buckle (16) are installed to install spring (15) lower extreme, hydraulic oil storehouse (11) lower surface intermediate position department integrated into one piece has oil drain pipe (18), hydraulic oil storehouse (11) lateral wall one side integrated into one piece has oil feed pipe (13), a serial communication port, oil storehouse subassembly (1) upper end is provided with and changes subassembly (2), hydraulic oil storehouse subassembly (1) rear is provided with pumping unit (3), change subassembly (2) including changing storehouse (22), outside storehouse (22) one side integrated into one piece has outside storehouse (22), outside storehouse (24) integrated into one piece has outside storehouse surface shaping accessory (23), outside storehouse (22) integrated into one piece is located outside storehouse surface shaping accessory (23).

2. The hydraulic accessory quick replacement device of the hydraulic excavator according to claim 1, wherein the dirt scraping assembly (17) comprises a dirt scraping ring (171), a plurality of evenly distributed communication holes (173) are formed in the upper surface of the dirt scraping ring (171), a rotating plate (172) is rotatably connected to the upper surface of the dirt scraping ring (171) at the position corresponding to the communication holes (173), a traction wire (174) is arranged at the middle position of the upper surface of the dirt scraping ring (171) at the position corresponding to the communication holes (173) and far away from one side of the rotating plate (172), embedded grooves (175) are formed in the four directions of the outer surface of the dirt scraping ring (171), and limiting bars are arranged at the positions of the inner side walls of the hydraulic oil bin (11) corresponding to the embedded grooves (175).

3. The hydraulic accessory quick replacement device of the hydraulic excavator according to claim 1, wherein the accessory bin (23), the new bin (24) and the old bin (210) are provided with adjusting grooves (25) below the outer side walls, the accessory bin (23), the new bin (24) and the old bin (210) are slidably connected with adjusting plates (29) at positions corresponding to the adjusting grooves (25), the adjusting plates (29) are located on one side of the accessory bin (23), the new bin (24) and the old bin (210), a limiting ring (28) is integrally formed on one side of the inside of the accessory bin (23), an operation hole (27) is formed in the middle of the lower surface of the replacement bin (22), and a connecting ring (214) is integrally formed on the lower surface of the replacement bin (22) corresponding to the operation hole (27).

4. The hydraulic accessory quick replacement device of the hydraulic excavator according to claim 3, wherein an adjusting rod (21) is slidably connected to the middle position of the upper surface of the replacement bin (22), an adsorption block (26) is installed at the lower end of the adjusting rod (21), telescopic rods (212) are installed on the outer side wall of the adsorption block (26) in four directions, a cleaning ring (213) is arranged on the upper surface inside the adjusting rod (21) corresponding to the position of the adjusting rod (21), a first control button is installed at the upper end of the adjusting rod (21), and bin plates (211) are installed at the upper ends of the new bin (24) and the old bin (210).

5. The hydraulic accessory quick replacement device of the hydraulic excavator according to claim 1, wherein a connecting pipe (31) is installed on one side of the outer side wall of the oil drain pipe (18), a impurity filtering bin (32) is installed at the middle position of the connecting pipe (31), an oil storage bin (33) is installed at one end, far away from the hydraulic oil bin (11), of the connecting pipe (31), through holes are formed in the position, corresponding to the connecting pipe (31), of the outer side wall of the oil drain pipe (18), two filter screens which are distributed up and down are installed in the impurity filtering bin (32), and a filter screen outer side frame is connected with connecting pieces on the inner wall of the impurity filtering bin (32) through traction springs.