CN113577911A - Automatic filter element cleaning device of aluminum profile processing equipment - Google Patents

Abstract

The invention discloses an automatic filter element cleaning device of aluminum profile processing equipment, which comprises a cleaning box, a cleaning assembly, a recovery assembly and a driving assembly, wherein the cleaning box forms a cleaning cavity for accommodating a filter element; the cleaning assembly is arranged in the cleaning cavity, can rotate relative to the filter element and is in flexible contact with the filter element so as to remove impurities at the filter element; the recovery assembly is communicated with the cleaning cavity to recover impurities in the cleaning cavity; the driving assembly is used for driving the cleaning assembly and the recovery assembly. Because the relative rotation has between filter core and the clearance subassembly, and clearance subassembly and filter core flexonics when relative rotation, consequently, the clearance subassembly can circulate to the filter core and hit and beat, hits the in-process beating, thereby impurity just can be because the vibration of filter core separates with the filter core, simultaneously, clearance subassembly and filter core are flexonics, consequently, the clearance subassembly can not cause the damage to the filter core when beating the filter core to ensure that the filter core after the clearance can reuse.

Description

Automatic filter element cleaning device of aluminum profile processing equipment

Technical Field

The invention belongs to the field of aluminum profile processing, and particularly relates to an automatic filter element cleaning device of aluminum profile processing equipment.

Background

Wire drawing machine and burnishing machine can process the aluminium alloy, and in the course of working of aluminium alloy, very easily produce the dust, consequently all need corresponding dust recovery equipment to wire drawing machine and burnishing machine, because the filter core receives dirty absorption reinforce, consequently, dust recovery equipment is equipped with the filter core, nevertheless equally because the filter core receives dirty absorption reinforce, consequently, impurity is hidden darker in filter core department, the degree of difficulty is big when the clearance, only clear up the filter core surface easily when washing, the cleaning performance is poor, and also dash impurity to the filter core deeper when washing easily, intensity of labour when increasing the clearance.

Disclosure of Invention

Aiming at the defects, the invention provides the automatic filter element cleaning device for the aluminum profile processing equipment, which can automatically clean the filter element and improve the efficiency of the cleaned filter element.

The invention is realized by the following technical scheme:

an automatic filter element cleaning device of aluminum profile processing equipment comprises a cleaning box, a cleaning assembly, a recovery assembly and a driving assembly, wherein the cleaning box forms a cleaning cavity for accommodating a filter element; the cleaning assembly is arranged in the cleaning cavity, can rotate relative to the filter element and is in flexible contact with the filter element so as to remove impurities at the filter element; the recovery assembly is communicated with the cleaning cavity to recover impurities in the cleaning cavity; the driving assembly is used for driving the cleaning assembly and the recovery assembly. Because the filter element and the cleaning assembly rotate relatively, and the cleaning assembly is in flexible contact with the filter element during the relative rotation, the cleaning assembly can circularly strike the filter element, so that the whole filter element generates vibration, and because the impurities at the filter element are dust and fine powder, the impurities can be separated from the filter element due to the vibration of the filter element during the striking process, and meanwhile, the cleaning assembly is in flexible contact with the filter element, so that the filter element cannot be damaged during the striking of the filter element by the cleaning assembly, and the cleaned filter element can be reused; and when the clearance subassembly was hit the filter core, impurity can constantly with the filter core separation and float in the clearance chamber, can in time retrieve floated impurity through retrieving the subassembly, avoid floated impurity to fall into filter core department once more and cause secondary pollution.

Furthermore, the cleaning assembly comprises a first rotating shaft penetrating through the inner wall of the cleaning cavity and a rotating member arranged on the first rotating shaft, and a plurality of flexible cleaning members are arranged on the rotating member at intervals along the extending direction of the rotating member. Rotation through first axis of rotation can drive and rotate a rotation, rotates the piece and just can drive a plurality of flexible clearance pieces when rotating and rotate to hit the filter core and hit, clear up the impurity of filter core department.

Further, the cleaning assembly also comprises two angle-shaped parts which are oppositely arranged on the inner wall of the cleaning cavity, each angle-shaped part comprises a first fixing part arranged along the vertical direction and a second fixing part inclined relative to the first fixing part, and the first rotating shaft penetrates through one first fixing part and is connected to the other first fixing part. First mounting and second mounting constitute angular structure, stable in structure, because first axis of rotation is located the filter core lateral part, first mounting sets up along vertical direction to avoided when the first mounting of installation and the distance of filter core too near.

Further, automatic cleaning device of filter core still includes the rotation platform of being connected to clearance intracavity wall, and the filter core butts to the rotation platform in order to rotate along with the rotation platform, and clearance subassembly direction of rotation is the same with the filter core direction of rotation. Rotation through the rotation platform realizes the rotation of filter core for the contact site of clearance subassembly and filter core is in periodic transform, thereby realizes the clearance to the filter core is whole, and the effect of getting rid of impurity is better.

Further, the rotating platform comprises two second rotating shafts arranged in parallel, the two second rotating shafts are located at the same horizontal plane, and the distance between the two second rotating shafts is smaller than the width of the filter element. Two second axis of rotation parallel arrangement just are located same horizontal plane department, the filter core is when placing in second axis of rotation top, can ensure the stability of filter core, and the filter core also can be placed to the interval between two second axis of rotation, the filter core when placing direct overlap joint can in two second axis of rotation tops, getting of filter core is got and is put more conveniently, and simultaneously, distance between two second axis of rotation is lighter than the width of filter core, the filter core is placing between two second axis of rotation, can not take place the whereabouts, the support of two second axis of rotation to the filter core is more stable.

Further, the cleaning assembly rotates from the filter core below towards the filter core top. The clearance subassembly can be raised the impurity in the filter core when with filter core flexible contact to accelerate the separating speed of filter core and impurity.

Further, automatic cleaning device of filter core still includes spacing subassembly, and spacing subassembly is including passing the lateral wall of clearance case and stretching into the spacing axle in clearance chamber, and the filter core can rotate for spacing axle with spacing axle butt. The filter core is placing when clearing up the intracavity, and the filter core is pegged graft to spacing axle department, not only can play the supporting role to the filter core through spacing axle, prevents simultaneously that the filter core from removing along vertical direction, and is more stable during the filter core clearance.

Furthermore, the limiting shaft is provided with a limiting section extending into the cleaning cavity, the limiting assembly further comprises a limiting part abutted to the limiting section, and the limiting part limits the limiting section to move along the vertical direction. Prevent through spacing section that spacing axle from removing to avoided being located the filter core removal of spacing axle, stability when guaranteeing the filter core clearance.

Further, the cleaning box comprises a shell forming a cleaning cavity and a cover body hinged with the shell, the cleaning cavity is provided with an opening communicated with the outside, and the cover body can rotate relative to the shell to open or close the opening. When needs clearance filter core, rotate the lid so that the opening is opened to make clearance chamber and external intercommunication place in the clearance intracavity in order to place the filter core, after finishing placing the filter core, rotate the lid once more so that the opening seals, impurity floats to the external world when avoiding the filter core clearance, the impurity of being convenient for is retrieved, the opening seals the back, through drive assembly drive clearance subassembly and retrieve the subassembly work, thereby clears up the impurity of filter core department and retrieves.

Furthermore, the cover body is provided with a visual window for observing the filter element of the cleaning cavity. The cleaning condition of the filter element in the cleaning cavity can be observed at any time through the visual window, so that the cleaning time is increased or shortened according to the cleaning condition of the filter element.

Drawings

FIG. 1 is a schematic view illustrating the construction of an exemplary embodiment of an automatic cleaning apparatus for a filter cartridge according to the present invention;

FIG. 2 is a schematic diagram illustrating an exemplary embodiment of a purge bin of the present invention;

FIG. 3 is a schematic view illustrating the internal structure of an exemplary embodiment of the cleaning tank of the present invention;

FIG. 4 is a schematic diagram illustrating the cleaning assembly and the rotary platform according to an exemplary embodiment of the present invention.

Reference numerals:

1. cleaning box, 11, cleaning cavity, 12, shell, 13, cover body, 2, cleaning assembly, 21, first rotating shaft, 22, rotating member, 221, flexible cleaning member, 23, angle-shaped member, 231, first fixing member, 232, second fixing member, 3, recovery assembly, 4, driving assembly, 41, motor, 42, control member, 5, rotating platform, 51, second rotating shaft, 6 and limiting assembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms of orientation such as left, right, up, down, front and back in the embodiments of the present invention are only relative concepts or are referred to a normal use state of the product, i.e., a traveling direction of the product, and should not be considered as limiting.

In addition, the dynamic terms such as "relative movement" mentioned in the embodiments of the present invention include not only a positional change but also a movement in which a state changes without a relative change in position such as rotation or rolling.

Finally, it is noted that when an element is referred to as being "on" or "disposed" to another element, it can be on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

As shown in fig. 1 to 4, the automatic filter element cleaning device for the aluminum profile processing equipment comprises a cleaning box 1, a cleaning assembly 2, a recovery assembly 3 and a driving assembly 4, wherein the cleaning box 1 forms a cleaning cavity 11 for accommodating a filter element; the cleaning assembly 2 is arranged in the cleaning cavity 11, and the cleaning assembly 2 can rotate relative to the filter element and flexibly contact with the filter element to remove impurities at the filter element; the recovery component 3 is communicated with the cleaning cavity 11 to recover impurities in the cleaning cavity 11; the driving assembly 4 is used for driving the cleaning assembly 2 and the recovery assembly 3; to wire drawing machine and burnishing machine, add man-hour to the aluminium alloy, very easily produce the dust, consequently all need corresponding dust recovery equipment to wire drawing machine and burnishing machine, because the filter core receives dirty absorption strong, consequently, dust recovery equipment is equipped with the filter core, nevertheless equally because the filter core receives dirty absorption strong, consequently, impurity is hidden darker in filter core department, the degree of difficulty is big when the clearance, only clear up the filter core surface easily when washing, the cleaning performance is poor, and also dash impurity to the more depths of filter core easily when washing, intensity of labour when increasing the clearance.

In the application, a filter element needing to be cleaned is placed in the cleaning box 1, relative rotation is formed between the filter element and the cleaning assembly 2, and the cleaning assembly 2 is in flexible contact with the filter element during the relative rotation, so that the cleaning assembly 2 can perform circular beating on the filter element, the whole filter element is vibrated, impurities in the filter element are dust and fine powder, and are separated from the filter element due to the vibration of the filter element during beating, and meanwhile, the cleaning assembly 2 is in flexible contact with the filter element, so that the filter element cannot be damaged during beating of the filter element by the cleaning assembly 2, and the cleaned filter element can be reused; and when clearance subassembly 2 hit the filter core, impurity can constantly with the filter core separation and float in clearance chamber 11, can in time retrieve floated impurity through retrieving subassembly 3, avoid floated impurity to fall into filter core department once more and cause secondary pollution.

It can be understood, in order to hit the filter core through clearance subassembly and filter core flexible contact, thereby when clearing up the impurity of filter core department, can assist simultaneously has the subassembly of blowing, the subassembly of blowing is including stretching into the blowing pipe in clearance chamber and with the fan of blowing pipe intercommunication, the fan is by the drive assembly drive in order to blow to the blowing pipe, can enough blow off the impurity of filter core department, the clearance of filter core is accomplished jointly to supplementary clearance subassembly, simultaneously, the clearance subassembly is behind the impurity clearance filter core with the filter core department, blow the impurity of clearing up out through the blowing pipe department and retrieve to the region of keeping away from the filter core and by retrieving the subassembly, thereby avoid impurity to drop to the filter core department once more, cause secondary pollution.

The recovery assembly 3 comprises a suction pipe and a recovery member which penetrate through the side wall of the cleaning box 1 and extend into the cleaning cavity 11, the driving assembly 4 comprises a suction piece communicated with the suction pipe and the recovery member, and impurities in the cleaning cavity 11 can flow into the recovery member through the suction pipe through the suction piece for centralized recovery so as to facilitate subsequent treatment.

In order to avoid the impurities from floating during cleaning and ensure that the impurities can be recovered through the recovery assembly 3, as shown in fig. 2, the cleaning box 1 comprises a shell 12 forming a cleaning cavity 11 and a cover body 13 hinged with the shell 12, the cleaning cavity 11 is provided with an opening communicated with the outside, and the cover body 13 can rotate relative to the shell 12 to open or close the opening; when the filter element needs to be cleaned, the cover body 13 is rotated to open the opening, so that the cleaning cavity 11 is communicated with the outside to place the filter element in the cleaning cavity 11, after the filter element is placed, the cover body 13 is rotated again to close the opening, so that impurities are prevented from floating to the outside during cleaning of the filter element, the impurities are convenient to recover, and after the opening is closed, the cleaning assembly 2 and the recovery assembly 3 are driven to work through the driving assembly 4, so that the impurities in the filter element are cleaned and recovered; and this automatic cleaning device of filter core also can be with lid 13 lock on casing 12 when idle to make the opening seal, can be isolated with clearance chamber 11 with external like this, thereby keep the clean and tidy in the clearance chamber 11.

Preferably, the cover 13 includes a first cover 13 hinged to the housing 12 and a second cover 13 hinged to the first cover 13, a first hinge point is formed between the first cover 13 and the housing 12, a second hinge point is formed between the second cover 13 and the first cover 13, when the cover 13 is opened, the first cover 13 can rotate relative to the housing 12 around the first hinge point, and simultaneously, the second cover 13 can also rotate relative to the first cover 13 around the second hinge point, therefore, when the first cover 13 is rotated to be arranged along the vertical direction, because the second cover 13 can also rotate, the second cover 13 can rotate downward relative to the first cover 13, so that the second cover 13 does not need to extend upward on the basis of the first cover 13, and it can avoid that the cover 13 is inconvenient to open after being opened when the cover 13 has a larger structure, and occupies a larger space after being opened, it is also not convenient to put the lid 13 down when closing the opening.

The cover body 13 is provided with a visual window for observing the filter element of the cleaning cavity 11; the cleaning condition of the filter element in the cleaning cavity 11 can be observed at any time through the visual window, so that the cleaning time is increased or shortened according to the cleaning condition of the filter element; wherein, the position that sets up of visual window can be selected according to the height of clearance case 1, for example when the height of clearance case 1 is less than operator's height, visual window can set up in the top of lid 13 this moment, and visual window is located the top of filter core, the user just can observe the filter core through overlooking the visual window, or, when the height of clearance case 1 was close operator's height, visual window can set up in the lateral part of lid 13 this moment, and visual window is located the place ahead of filter core, the user just can observe the filter core through the front vision visual window.

As shown in fig. 3 and 4, the cleaning assembly 2 includes a first rotating shaft 21 penetrating through the inner wall of the cleaning chamber 11 and a rotating member 22 provided on the first rotating shaft 21, the rotating member 22 being provided with a plurality of flexible cleaning members 221 at intervals along the extending direction thereof; rotation through first axis of rotation 21 can drive and rotate 22 and rotate, it just can drive a plurality of flexible clearance pieces 221 rotation when rotating to rotate 22, thereby hit the filter core, impurity to filter core department clears up, wherein, set up a plurality of flexible clearance pieces 221 in rotating 22 department alone, be convenient for first axis of rotation 21 passes clearance intracavity 11 inner walls, avoid flexible clearance piece 221 to influence the installation of first axis of rotation 21, after first axis of rotation 21 finishes the installation, locate first axis of rotation 21 department at rotating 22.

Preferably, the rotating member 22 is detachably connected to the first rotating shaft 21, and since the rotating member 22 is disposed at the first rotating shaft 21, the rotating member 22 also plays a role of isolating the first rotating shaft 21, so as to prevent impurities in the cleaning process of the filter core from falling into the first rotating shaft 21, and the rotating member 22 can be detached from the first rotating shaft 21, so that the rotating member 22 and the flexible cleaning member 221 disposed on the rotating member 22 can be cleaned or replaced conveniently.

The flexible cleaning member 221 may be a rib made of flexible Polyvinyl chloride (PVC), and the flexible PVC rib may reduce the production cost due to the large production amount and the wide application range, and it can be understood that the rotating member 22 may also be made of flexible PVC.

The cleaning assembly 2 further comprises two angle-shaped members 23 oppositely arranged on the inner wall of the cleaning cavity 11, the angle-shaped members 23 comprise first fixing members 231 arranged along the vertical direction and second fixing members 232 inclined relative to the first fixing members 231, and the first rotating shaft 21 passes through one of the first fixing members 231 and is connected to the other first fixing member 231; the first fixing member 231 and the second fixing member 232 form an angle structure, the structure is stable, and the first fixing member 231 is arranged along the vertical direction because the first rotating shaft 21 is positioned at the side of the filter element, so that the excessive proximity of the filter element when the first fixing member 231 is installed is avoided.

Preferably, the second fixing member 232 is inclined in a direction away from the filter element, so that the second fixing member 232 is prevented from being too close to the filter element after being inclined, and the filter element is prevented from colliding with the second fixing member 232 during rotation.

Wherein, the cleaning component 2 rotates relative to the filter element to make the cleaning component 2 remove the impurities at the filter element, therefore, the first rotating shaft 21 in the cleaning component 2 can rotate to drive the flexible cleaning piece 221 at the first rotating shaft 21 to rotate relative to the filter element, or the cleaning component 2 can be made to rotate without rotating, and the cleaning component 2 and the filter element also have relative rotation, of course, the cleaning component 2 and the filter element can also rotate, wherein, the rotating directions of the cleaning component 2 and the filter element can be the same, or the rotating directions of the cleaning component 2 and the filter element can be opposite, which can be understood, when the rotating directions of the cleaning component 2 and the filter element are the same, the rotating speeds of the cleaning component 2 and the filter element can be different, or, when the rotating directions and the rotating speeds of the cleaning component 2 and the filter element are the same, because the cleaning component 2 and the filter element rotate around an axis respectively, accordingly, it is also possible to identify relative rotation between the cleaning assembly 2 and the filter cartridge.

The cleaning assembly 2 is internally provided with a first rotating shaft 21 capable of rotating, in order to enable the filter element to also rotate, the automatic filter element cleaning device also comprises a rotating platform 5 connected to the inner wall of the cleaning cavity 11, the filter element is abutted to the rotating platform 5 to rotate along with the rotating platform 5, and the rotating direction of the cleaning assembly 2 is the same as that of the filter element; rotation through rotation platform 5 realizes the rotation of filter core for the contact site of clearance subassembly 2 and filter core is in periodic transform, thereby realizes the clearance to the filter core is whole, and the effect of getting rid of impurity is better.

Rotating platform 5 is located the 2 lateral parts of clearance subassembly when the installation, wherein, the quantity of rotating platform 5 can be selected to one, rotating platform 5 sets up in one side of clearance subassembly 2, can reduce the holistic size of the automatic cleaning device of filter core, or, the quantity of rotating platform 5 also can be two, two rotating platform 5 are located the both sides of clearance subassembly 2, because clearance subassembly 2 can rotate, therefore, only need set up a clearance subassembly 2, just can accomplish the clearance of both sides rotation platform 5 department filter core simultaneously, improve the cleaning efficiency of filter core.

Wherein, the rotation platform 5 can be for solitary axle formation, because the filter core is inside to be hollow structure, consequently can insert the filter core to rotation platform 5 department, when realizing the filter core rotation, carry on spacingly to the filter core, can understand, because the filter core need put into and take out when the clearance, consequently, the length of rotation platform 5 is less than clearance chamber 11 along the ascending length in rotation platform 5 extending direction, specifically, the width of rotation platform 5 is L, clearance chamber 11 is L along the ascending length in rotation platform 5 extending direction, L is less than or equal to 0.5L.

Preferably, as shown in fig. 4, the rotating platform 5 includes two second rotating shafts 51 arranged in parallel, the two second rotating shafts 51 are located at the same horizontal plane, and the distance between the two second rotating shafts 51 is smaller than the width of the filter element; two second axis of rotation 51 parallel arrangement just are located same horizontal plane department, the filter core is when placing in second axis of rotation 51 top, can ensure the stability of filter core, and the filter core also can be placed to the interval between two second axis of rotation 51, the filter core when placing direct overlap joint can in two second axis of rotation 51 tops, getting of filter core is put more conveniently, and simultaneously, distance between two second axis of rotation 51 is less than the width of filter core, the filter core is when placing between two second axis of rotation 51, the whereabouts can not take place, two second axis of rotation 51 are more stable to the support of filter core, below, use the filter core to set up in second axis of rotation 51 department as an example, explain in detail.

Since no other part is disposed between the two second rotating shafts 51, when the filter element is placed between the two second rotating shafts 51, the outer contour of the filter element has a portion below the two second rotating shafts 51, so that the length of the filter element below the two second rotating shafts 51 when the filter element is placed on the two second rotating shafts 51 can be adjusted by adjusting the distance between the two second rotating shafts 51, that is, when the distance between the two second rotating shafts 51 is shortened, the length of the filter element below the two second rotating shafts 51 is reduced, and when the distance between the two second rotating shafts 51 is increased, the length of the filter element below the two second rotating shafts 51 is increased, even if the filter element is jumped when rotating, because the length of the filter element below the two second rotating shafts 51 is larger, the filter element is still located between the two second rotating shafts 51, the two second rotating shafts 51 support the filter element through clamping, and it can be understood that although the distance between the two second rotating shafts 51 is increased to achieve the stability of placing the filter element, the distance between the two second rotating shafts 51 is still smaller than the width of the filter element, so that the filter element is prevented from falling off, preferably, the distance between the two second rotating shafts 51 is D, the width of the filter element is D, and D is greater than or equal to 1.2D and less than or equal to 1.5D.

The cleaning component 2 rotates from the lower part of the filter element to the upper part of the filter element; the cleaning component 2 can flexibly contact with the filter element, so that impurities on the surface of the filter element can be removed when the cleaning component 2 is in contact with the filter element, the cleaning component 2 rotates from the lower part of the filter element to the upper part of the filter element, and the cleaning component 2 can lift the impurities in the filter element when in flexible contact with the filter element, so that the separation speed of the filter element and the impurities is accelerated; it can be understood that the cleaning assembly 2 comprises a first rotating shaft 21 penetrating through the inner wall of the cleaning cavity 11 and a rotating member 22 arranged on the first rotating shaft 21, the rotating member 22 is provided with a plurality of flexible cleaning members 221 at intervals along the extending direction thereof, and the cleaning assembly 2 rotates from the lower part of the filter element towards the upper part of the filter element, namely, the flexible cleaning members 221 in flexible contact with the filter element rotate from the lower part of the filter element towards the upper part of the filter element when rotating.

When the rotation direction of clearance subassembly 2 and filter core is the same, clearance subassembly 2 rotates from the filter core below towards the filter core top, the filter core is same from 2 tops of clearance subassembly towards clearance subassembly 2 below rotations, consequently, the filter core rotates the part that then is realized the clearance to clearance subassembly 2 below and is the part by clearance subassembly 2, and simultaneously, impurity is then hit to be beaten and is beaten and raise, can separate impurity and the part of clearing up, thereby avoid the part of clearing up in the filter core to meet again and touch the impurity of beating.

Because the filter core is placed in two second axis of rotation 51 departments, consequently, in order to leave the installation distance for the filter core in vertical direction, the mounted position of second axis of rotation 51 then can be in clearance chamber 11 middle part, and the position of clearance subassembly 2 is higher than the position of second axis of rotation 51, consequently, clearance subassembly 2 rotates the clearance subassembly 2 and also is convenient for with the filter core contact from filter core below towards the filter core top.

In the present application, the driving assembly 4 comprises a plurality of motors 41 and a control member 42 for controlling the opening and closing of the motors 41, the first rotating shaft 21 and the two second rotating shafts 51 each correspond to one motor 41, alternatively, in order to reduce the cost, the first rotating shaft 21 and the two second rotating shafts 51 can be rotated simultaneously by one motor 41, when the first rotating shaft 21 and the two second rotating shafts 51 are rotated by one motor 41, the first rotating shaft 21 and the two second rotating shafts 51 have belt wheels located outside the cleaning tank 1, the belt wheels of the two second rotating shafts 51 are connected by a belt drive, since the second rotating shafts 51 are located below the first rotating shafts 21, one of the pulleys of the two second rotating shafts 51 is in transmission connection with the motor shaft through a belt, and the other is in transmission connection with the pulley of the first rotating shaft 21 through a belt, for convenience of connection.

In order to protect the belt wheel of the first rotating shaft 21 and the two second rotating shafts 51, which are positioned on the outer side of the cleaning box 1, and the belt used for transmission connection, the automatic filter element cleaning device further comprises a protective shell arranged on the outer side wall of the cleaning box 1, and the protective shell can cover the belt wheel and the belt.

The automatic filter element cleaning device also comprises a limiting component 6, the limiting component 6 comprises a limiting shaft which penetrates through the side wall of the cleaning box 1 and extends into the cleaning cavity 11, and the filter element is abutted against the limiting shaft and can rotate relative to the limiting shaft; when the filter core was placed in clearance chamber 11, the filter core was pegged graft to spacing axle department, not only can play the supporting role to the filter core through spacing axle, prevents simultaneously that the filter core from removing along vertical direction, and is more stable during the filter core clearance.

In order to prevent that the filter core from spacing epaxial landing when placing in spacing axle department, spacing subassembly 6 is still including connecting the stopper to clearance chamber 11 inner wall, the stopper sets up with spacing axle relatively, the filter core is when installing to spacing axle, be formed with the installation clearance between filter core and the stopper, the stopper can not lead to the fact the influence to the rotation of filter core, and when the filter core landing goes out the spacing axle, the length of the installation clearance between filter core and the stopper just can reduce, until filter core and stopper contact, restrict the filter core through the stopper and continue the landing, thereby ensure that the filter core can be located spacing axle department all the time when clearing up.

The limiting shaft is provided with a limiting section extending into the cleaning cavity 11, the limiting assembly 6 further comprises a limiting piece abutted to the limiting section, and the limiting piece limits the limiting section to move along the vertical direction; the limiting shaft is prevented from moving through the limiting section, so that the filter element positioned on the limiting shaft is prevented from moving, and the stability of the filter element during cleaning is ensured; wherein, when the locating part is connected, connect the locating part to clearance intracavity wall and be located the below of spacing section, wherein, the structure of locating part and spacing section butt is the U-shaped, can set up around spacing section like this, realizes spacing of spacing section.

Preferably, spacing axle can slide for the lateral wall of clearance case 1, thereby change spacing axle and be located clearance intracavity 11 internal length, be convenient for the installation and the taking out of filter core, it is corresponding, when installing the filter core to spacing department, stability when guaranteeing the filter core rotation, spacing subassembly 6 still includes the mounting, thereby realize fixing spacing axle and clearance case 1's position, can understand, when spacing axle slides, the length that spacing axle is located clearance chamber 11 also can change, consequently, the part of spacing section also can change at any time when spacing axle slides in spacing axle.

When the filter element is arranged at the position of the limiting shaft, in order to enable the filter element to rotate, the filter element is also arranged on the rotating platform 5 connected to the inner wall of the cleaning cavity 11, the limiting shaft realizes the auxiliary supporting function on the filter element, the rotation of the filter element is realized through the rotation of the second rotating shaft 51, in order to allow the filter element to be simultaneously in contact with the second rotating shaft 51 when the filter element is mounted to the limiting shaft, the distance between the limiting shaft and the second rotating shaft 51 in the vertical direction is actually selected according to the size of the filter element, and the second rotating shaft 51 plays a role in supporting the filter element, therefore, the length of the inner diameter of the hollow part of the filter element is larger than the diameter of the limiting shaft, so that the filter element is not contacted with the limiting shaft, the resistance is smaller when the filter element rotates, and the filter element can be understood, when the cleaning assembly 2 rotates to be in flexible contact with the filter element, the cleaning assembly 2 generates force acting on the filter element, and the filter element can be promoted to rotate.

When the automatic filter element cleaning device is used, firstly, the cover body 13 is moved to enable the cleaning cavity 11 to be communicated with the outside, the filter element to be cleaned is placed at the two second rotating shafts 51 positioned in the cleaning cavity 11, then, the cover body 13 is moved again to enable the cleaning to be isolated from the outside, the cleaning cavity 11 is completely sealed in the cleaning process to prevent impurities from flying out, firstly, the recovery assembly 3 is started through the driving assembly 4 to recover the impurities, then, the first rotating shaft 21 and the two second rotating shafts 51 are started through the driving assembly 4 to rotate, the filter element is cleaned through the flexible cleaning piece 221, and the recovery assembly 3 is started before the cleaning, so that the impurities cleaned by the filter element can be quickly recovered by the recovery assembly 3, the cleaning condition of the filter element can be observed at any time through the window in the cleaning process to adjust the cleaning time of the filter element, and after the cleaning of the filter element positioned in the cleaning cavity 11 is completed, make first axis of rotation 21 and two second axis of rotation 51 stall through drive assembly 4, retrieve subassembly 3 this moment and still be in operating condition to carry out the ending processing to impurity, close and retrieve subassembly 3 after the whole clearance of the filter core that needs the clearance is accomplished, and cover lid 13.

Wherein, when a plurality of filter cores need to be cleared up, when the change of filter core is carried out, need make first axis of rotation 21 and two second axis of rotation 51 stall, avoid taking place danger, and retrieve subassembly 3 and then need not to close, put into clearance chamber 11 with the filter core one by one and clear up can.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. The utility model provides an automatic cleaning device of filter core of aluminium alloy processing equipment which characterized in that includes:

a cleaning tank forming a cleaning cavity containing a filter element;

the cleaning assembly is arranged in the cleaning cavity, can rotate relative to the filter element and is in flexible contact with the filter element so as to remove impurities at the filter element;

the recovery assembly is communicated with the cleaning cavity to recover the impurities in the cleaning cavity;

a drive assembly for driving the cleaning assembly and the recovery assembly.

2. The automatic filter element cleaning device for the aluminum profile processing equipment as claimed in claim 1, wherein the cleaning assembly comprises a first rotating shaft penetrating through the inner wall of the cleaning cavity and a rotating member arranged on the first rotating shaft, and the rotating member is provided with a plurality of flexible cleaning members at intervals along the extending direction of the rotating member.

3. The automatic filter element cleaning device for the aluminum profile processing equipment as claimed in claim 2, wherein the cleaning assembly further comprises two angle-shaped members oppositely arranged on the inner wall of the cleaning cavity, each angle-shaped member comprises a first fixing member arranged in a vertical direction and a second fixing member inclined relative to the first fixing member, and the first rotating shaft penetrates through one of the first fixing members and is connected to the other first fixing member.

4. The automatic filter element cleaning device for the aluminum profile processing equipment as recited in claim 1, further comprising a rotating platform connected to the inner wall of the cleaning cavity, wherein the filter element is abutted to the rotating platform to rotate along with the rotating platform, and the rotating direction of the cleaning assembly is the same as that of the filter element.

5. The automatic filter element cleaning device for the aluminum profile processing equipment as claimed in claim 4, wherein the rotating platform comprises two second rotating shafts which are arranged in parallel, the two second rotating shafts are located at the same horizontal plane, and the distance between the two second rotating shafts is smaller than the width of the filter element.

6. The automatic cleaning device for the filter element of the aluminum profile processing equipment as claimed in claim 4, wherein the cleaning assembly rotates from below the filter element to above the filter element.

7. The automatic filter element cleaning device for the aluminum profile processing equipment as recited in claim 1, further comprising a limiting assembly, wherein the limiting assembly comprises a limiting shaft which penetrates through the side wall of the cleaning box and extends into the cleaning cavity, and the filter element is abutted against the limiting shaft and can rotate relative to the limiting shaft.

8. The automatic filter element cleaning device of the aluminum profile processing equipment as recited in claim 7, wherein the limiting shaft is provided with a limiting section extending into the cleaning cavity, the limiting assembly further comprises a limiting member abutted to the limiting section, and the limiting member limits the limiting section to move in a vertical direction.

9. The automatic filter element cleaning device for the aluminum profile processing equipment as recited in claim 1, wherein the cleaning box comprises a shell forming the cleaning cavity and a cover body hinged with the shell, the cleaning cavity is provided with an opening communicated with the outside, and the cover body can rotate relative to the shell to open or close the opening.

10. The automatic cleaning device for the filter element of the aluminum profile processing equipment as claimed in claim 9, wherein the cover body is provided with a visual window for observing the filter element of the cleaning cavity.

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