CN220516342U

CN220516342U - Deburring frock of plastic steel section bar with waste material separation

Info

Publication number: CN220516342U
Application number: CN202322029911.4U
Authority: CN
Inventors: 龙奇
Original assignee: Sichuan Time Plastic Steel Profile Technology Co ltd
Current assignee: Sichuan Time Plastic Steel Profile Technology Co ltd
Priority date: 2023-07-31
Filing date: 2023-07-31
Publication date: 2024-02-23
Anticipated expiration: 2033-07-31

Abstract

The utility model relates to a deburring tool for plastic steel profiles with waste separation, wherein a polishing assembly capable of deburring plastic steel profiles is arranged on a workbench, a slag separation assembly capable of filtering slag from mixed liquid flow converged by the workbench is arranged in a containing cavity arranged in the workbench, a slag discharging mechanism is arranged on the slag separation assembly in a manner of continuously outputting filtered slag, the slag discharging mechanism is obliquely inserted in the separating cavity, and a part of main body of the slag discharging mechanism penetrates through the cavity wall of the containing cavity and extends to the outside of the workbench; the separation chamber is internally provided with a buffer mechanism which can buffer the mixed liquid flow input through the collecting port of the top chamber wall of the accommodating chamber, and the buffer mechanism is positioned above a part of the main body of the separation chamber, into which the slag discharging mechanism is inserted, so that slag which is settled in the separation chamber by standing can be discharged through the slag discharging mechanism.

Description

Deburring frock of plastic steel section bar with waste material separation

Technical Field

The utility model relates to the technical field of multifunctional plastic steel processing equipment, in particular to a deburring tool for plastic steel profiles with waste separation.

Background

The plastic steel door and window is made up by using polyvinyl chloride resin as main raw material and adopting the processes of extrusion and forming into profile, then making door and window frame fan by means of cutting, welding or screw-connecting, and its interior is equipped with steel lining, so that it is called plastic steel door and window, after the specific cutting process is completed, the cut surface and cut edge of the plastic steel profile as basic unit of the spliced door and window are usually equipped with more or less burrs, and the more important the precision is reached along with the production and processing of single element, the existence of burrs is outstanding, and the precision of processed product and safety of user are seriously affected by the existence of burrs, so that before the processed single element is used for product assembly, the burrs existed on the surface of single element of plastic steel profile, etc. must be polished and removed.

Patent document with publication number CN219337182U discloses a plastic steel incision grinding device, including polishing platform, the mount pad of setting above polishing platform, set up the sander on the mount pad and set up the controller on polishing platform, the blanking mouth has been seted up downwards on the top of polishing platform, logical chamber has been seted up downwards to the bottom of blanking mouth, fixedly connected with filter screen on the inside wall of logical chamber, the bottom of leading to the chamber is provided with the motor, the output shaft fixedly connected with bull stick of motor, the top of bull stick upwards extends and runs through the filter screen, fixedly mounted has the flabellum on the lateral wall of bull stick, the flabellum is located the below of filter screen, the bottom of leading to the chamber runs through and has seted up the exhaust chamber that is linked together with polishing platform outside, be provided with the sediment structure on the lateral wall of bull stick. This patent is intended to realize the filtration of piece and dust through setting up logical chamber and filter screen, but because the granularity of dust is little, general filter screen can't reach the filter effect, usually need the mesh minimum or the filter membrane filters, but the ventilative mesh of small-size can't guarantee that the air current that equipment was directional carries can effectively pass the filter screen, the phenomenon that the air current exists to be intercepted and return, lead to its actual filter effect to be far lower than expecting, wherein, the air current that returns can lead to the air current traction force to weaken, cause the air current unable drive piece and dust to enter into logical intracavity, scrape the setting of leaf blade and only can get rid of accumulational piece, and can't clear up the piece that blocks up in the mesh, and can not solve the jam problem. The prior equipment also has the defects that the grinding surface cannot be effectively cooled, the grinding system is extremely easy to overheat, the filtering and collecting efficiency of scraps and dust is low, and the screen is easy to be blocked. The upward air flow can accelerate the scattering of dust, so that the diffusion range and the diffusion speed are larger, and the working environment and the physical health of staff are seriously affected.

Furthermore, there are differences in one aspect due to understanding to those skilled in the art; on the other hand, as the inventors studied numerous documents and patents while the present utility model was made, the text is not limited to details and contents of all that are listed, but it is by no means the present utility model does not have these prior art features, the present utility model has all the prior art features, and the applicant remains in the background art to which the rights of the related prior art are added.

Disclosure of Invention

The utility model aims to provide a deburring tool with waste separation for plastic steel profiles, which can continuously discharge slag generated in a deburring processing process, so as to ensure continuous and effective operation of a circulating cooling system to fully clean and effectively suppress dust of the slag and ensure deburring polishing quality and efficiency, and solve the problems that the existing deburring equipment cannot effectively suppress dust, the slag such as scraps generated after polishing cannot be effectively recovered, and the capacity of a recovery system is limited so as not to continuously perform circulating work.

The technical scheme adopted by the utility model is as follows: the utility model provides a burring frock with waste material separation plastic steel section bar, includes the workstation, be provided with the polishing subassembly that can carry out burring processing to the incision region of plastic steel section bar on the workstation, set up in the holding chamber of workstation inside be provided with the slag charge separation subassembly that can carry out the slag charge filtering to the slag charge and the coolant liquid mixture that the workstation gathered, slag charge separation subassembly sets up slag discharge mechanism according to the mode that can continuously export the slag charge of filtering out, and slag discharge mechanism slope is inserted and is established in the separation chamber, slag discharge mechanism's partial main part runs through the chamber wall of holding the chamber and extends to the outside of workstation; the separation chamber is internally provided with a buffer mechanism which can buffer the mixed liquid flow input through the collecting port of the top chamber wall of the accommodating chamber, and the buffer mechanism is positioned above a part of the main body of the separation chamber, into which the slag discharging mechanism is inserted, so that slag which is settled in the separation chamber by standing can be discharged through the slag discharging mechanism.

According to a preferred embodiment, the separation chamber is provided with an input chamber and an output chamber in parallel in a manner of constructing a U-shaped chamber, and the axial lower ends of the input chamber and the output chamber are communicated through a deposition chamber; the input end of the output cavity is provided with an interception net, so that mixed liquid flow converged into the separation cavity can be filtered by the interception net in the process of forming equal-height liquid level, cooling liquid after slag removal enters the output cavity, and the slag removal mechanism is partially inserted into the deposition cavity.

According to a preferred embodiment, a recoil drain pipe is further arranged above the interception net in the output cavity, and the recoil drain pipe can dredge meshes of the interception net blocked by slag in a mode of spraying a flushing air flow to the interception net; an infusion pump communicated with a flow guide pipe penetrating through the cavity wall of the output cavity is arranged in the output cavity, and the flow guide pipe is communicated with the cooling cleaning assembly through a filtration device.

According to a preferred embodiment, the slag discharging mechanism comprises a shell, a rotating shaft, a propeller blade, a driving motor and a supporting piece, wherein one end of the shell is communicated with the deposition cavity, the propeller blade is arranged on the rotating shaft in a spiral surrounding mode to form a rotary discharging structure, and the rotary discharging structure is inserted in the shell in a mode that the propeller blade is matched with a cavity of the shell and the rotating shaft is overlapped with an axis of the shell; one end of the rotary discharge structure extends from a chamber defined by the housing into the deposition chamber.

According to a preferred embodiment, the housing is inserted obliquely into the accommodation chamber, and the upper inclined end of the housing away from the deposition chamber extends through the chamber wall of the accommodation chamber to the outside of the workbench, and the lower surface of the housing outside the workbench is communicated with a collecting bin; the upper inclined end of the shell is also provided with the driving motor in transmission connection with the rotating shaft, and the lower inclined end of the rotating shaft is positioned in the deposition cavity through a supporting piece.

According to a preferred embodiment, the buffer mechanism comprises a slow flow plate and an overflow cavity, wherein the slow flow plate is alternately arranged on the cavity wall of the input cavity at intervals, and slow flow grooves intersecting the flow direction of the liquid flow are formed in the slow flow plate; the overflow cavity is arranged at the downstream of the slow flow plate, and an overflow port of the overflow cavity is provided with an inclined guide plate.

According to a preferred embodiment, the filtration device is arranged above a supporting frame body constructed by the workbench, the input end and the output end of a filtration cavity of the filtration device are respectively communicated with the liquid storage cavity of the guide pipe and the cooling cleaning assembly, and the filtration cavities are separated by a filtration membrane.

According to a preferred embodiment, a baffle plate capable of buffering the flushing air flow released by the recoil drain pipe is further arranged below the interception net, and the baffle plate is arranged at the position of an output port of the deposition cavity.

According to a preferred embodiment, the polishing components are arranged on the inner side wall of the frame body of the polishing space divided by the support frame body, and at least two polishing components are respectively arranged on the inner side walls of two adjacent and mutually perpendicular frame bodies; the top of the supporting frame body supports the cooling cleaning assembly.

According to a preferred embodiment, the cooling and cleaning assembly comprises the liquid storage cavity, a pressurizing pump, a switching valve, a drainage tube and a spray header, wherein the output end of the liquid storage cavity is communicated with the drainage tube, the input end of the drainage tube is provided with the pressurizing pump and the switching valve, and the output end of the drainage tube is communicated with the spray header suspended in the polishing space.

The beneficial effects of the utility model are as follows:

the slag separation assembly that this application set up can shift the produced slag charge in the course of working of polishing continuously to make the frock can last to carry out burring processing, promoted the recovery ability of frock to the slag charge, avoided piece and dust to take place to pile up in the space of polishing and influence processingquality, and continuously shift can also keep coolant liquid circulation system's sustainable operation, avoid the slag charge of siltation to cause circulation system's jam. This application utilizes cooling cleaning assembly that coolant liquid sprayed to carry out clearance and the directional transportation of piece and dust, has avoided the air current to clean because the conduction that leads to the chamber hinders and can't be effective clear defect, can effectively restrain the diffusion of dust for the dust is wetted and directional transportation, can also cool down the cooling to polishing face simultaneously, in order to guarantee the quality of polishing and to last the ability of polishing, avoids appearing the overheat fault.

The slag discharging mechanism that this application set up can be continuously discharged by the slag charge that the interception net was intercepted and had taken place to subside in with the separation chamber through directional transportation's mode to guaranteed the smoothness of separation chamber, make it can be continuously shifted through the deposited slag charge of interception and the mode of standing, guarantee that it can filter and subside continuously, realize effectively retrieving slag charges such as piece and dust. In addition, the buffer mechanism enables the mixed liquid flow which is gathered to enter the separation cavity stably, so that fluctuation caused by impact of the solution existing in the cavity is avoided, and effective standing settlement of the solution at the lower layer is ensured. The utility model is also provided with can carry out effective filterable filtration to debris such as dust of small diameter and thoroughly install to make slag charge separation subassembly 3 backward flow to the coolant liquid of cooling clean subassembly have higher purity, and then guaranteed circulation cooling system's sustainable work. The slag discharging mechanism of the spiral structure can continuously drive deposited slag to discharge the separating cavity, so that effective recovery of slag and effective circulation of cooling liquid are realized, and sustainable working performance of the tool is improved. The defect that the existing slag recovery structure needs to be cleaned regularly and is blocked in long-time filtering operation is avoided. The utility model provides a separation chamber of U-shaped cavity form that sets up can make the filtration of mixed liquid flow accomplish the mixed liquid flow under the produced hydraulic pressure effect of the liquid level difference that self exists through the physical properties of equipotential pressure to slag charge filterable efficiency and effect have been guaranteed.

Drawings

FIG. 1 is a schematic view of a deburring tool for plastic steel profiles with scrap separation according to the present utility model;

FIG. 2 is a schematic structural view of part A of a deburring tool for plastic steel profiles with scrap separation according to the present utility model;

fig. 3 is a schematic plan view of a flow-retarding plate of a deburring tool for plastic steel profiles with scrap separation according to the present utility model.

List of reference numerals

1: a work table; 2: a polishing assembly; 3: a slag separation assembly; 4: cooling the cleaning assembly; 11: a receiving chamber; 12: a support frame body; 31: a slag discharging mechanism; 32: a separation chamber; 33: a buffer mechanism; 34: an interception net; 35: a recoil calandria; 36: a flow guiding pipe; 37: an infusion pump; 38: a filtration device; 41: a liquid storage cavity; 42: a pressurizing pump; 43: a switch valve; 44: a drainage tube; 45: a spray header; 311: a housing; 312: a rotation shaft; 313: propeller blades; 314: a driving motor; 315: a support; 316: a collecting bin; 321: an input chamber; 322: an output chamber; 323: a deposition chamber; 324: a flow baffle; 331: a slow flow plate; 332: an overflow chamber; 333: a slow flow groove; 334: an inclined deflector; 381: a filtration cavity; 382: and (5) filtering the membrane.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the present utility model will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

The technical solution provided by the present utility model will be described in detail by way of examples with reference to the accompanying drawings. It should be noted that the description of these examples is for aiding in understanding the present utility model, but is not intended to limit the present utility model. In some instances, some embodiments are not described or described in detail as such, as may be known or conventional in the art.

Furthermore, features described herein, or steps in all methods or processes disclosed, may be combined in any suitable manner in one or more embodiments in addition to mutually exclusive features and/or steps. It will be readily understood by those skilled in the art that the steps or order of operation of the methods associated with the embodiments provided herein may also be varied. Any order in the figures and examples is for illustrative purposes only and does not imply that a certain order is required unless explicitly stated that a certain order is required.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling) where appropriate (where no paradox is constructed).

The following detailed description refers to the accompanying drawings.

Example 1

The application provides a burring frock of plastic steel section bar with waste material separation, it includes workstation 1, polishing subassembly 2, slag charge separation subassembly 3 and cooling cleaning assembly 4.

According to a specific embodiment shown in fig. 1, a grinding assembly 2 is provided on the table 1, which enables deburring of the cut-out areas of the plastic steel profile. A slag separation assembly 3 which can filter slag collected by the workbench 1 and a cooling liquid mixture is arranged in a containing cavity 11 arranged inside the workbench 1. A cooling and cleaning assembly 4 capable of spraying, cooling and flushing the machining surface of the grinding assembly 2 is further suspended above the workbench 1. The cooling liquid sprayed by the cooling and cleaning assembly 4 can reduce the friction heating of the polishing surface and can also drive slag generated at the polishing position, so that the cleanliness of the surface of the plastic steel profile is maintained. The slag separation assembly 3 that this application set up can shift the produced slag charge in the course of working of polishing continuously to make the frock can carry out burring processing continuously, promoted the recovery ability of frock to the slag charge, avoided piece and dust to take place to pile up in the space of polishing and influence processingquality, and continuously shift can also keep coolant liquid circulation system's sustainable operation, avoid the slag charge of siltation to cause circulation system's jam. This application utilizes cooling cleaning assembly 4 that coolant liquid sprayed to carry out clearance and the directional transportation of piece and dust, has avoided the air current to clean because lead to the conduction of chamber to hinder and can't be effective clear defect, can effectively restrain the diffusion of dust for the dust is moistened and directional transportation, can also cool down the cooling to polishing face simultaneously, in order to guarantee the quality of polishing and to last the ability of polishing, avoids appearing the overheat fault.

Preferably, the support frame 12 is provided on the top of the table 1. The supporting frame body 12 separates polishing spaces by a partition plate. Preferably, the table top of the workbench 1 is also provided with a lifting placement table which can be used for placing plastic steel profiles and adjusting the height in a lifting manner. Preferably, the support frame 12 can effectively inhibit the scattering of slag thrown away during polishing and the scattering of dust generated during polishing, and can also limit the sprayable area of sprayed cooling liquid, limit the sprayable space and confluence position of the cooling liquid, avoid the cooling liquid from splashing everywhere, and simultaneously enable the cooling liquid to wrap and wet the dust in the polishing space, so that the dust is effectively absorbed and cleaned in a certain space. Preferably, the grinding assembly 2 is provided on the inner side wall of the housing body of the grinding space divided by the housing body 12. Further preferably, at least two polishing assemblies 2 are respectively arranged on the inner side walls of two adjacent and mutually perpendicular frame bodies, so that double-sided polishing is carried out on the cut areas of the plastic steel section bars at the same time, and polishing quality and polishing efficiency are improved. Preferably, the top of the support frame body 12 supports the cooling cleaning assembly 4.

Preferably, the slag separation assembly 3 includes a slag extractor 31, a separation chamber 32, a buffer 33, an interception net 34, a recoil drain 35, a draft tube 36, an infusion pump 37, and a filter 38. The slag separation assembly 3 is preferably provided with a slag discharge mechanism 31 in such a way that the filtered slag can be continuously discharged. Specifically, the slag discharging mechanism 31 is obliquely inserted in the separation chamber 32. It is further preferred that a part of the body of the slag discharging mechanism 31 extends to the outside of the table 1 through the wall of the accommodating chamber 11 to output the separated slag outwardly. Preferably, a buffer means 33 is provided in the separation chamber 32, which is capable of buffering the mixed liquid flow fed through the collection port of the top chamber wall of the housing chamber 11. Specifically, the buffer mechanism 33 is located above a portion of the main body of the slag discharging mechanism 31 inserted into the separation chamber 32, so that slag settled in the separation chamber 32 can be discharged through the slag discharging mechanism 31. The separation chamber 32 is also provided therein with an interception net 34 capable of intercepting slag such that the cooling liquid, which is communicated with the draft tube 36 and is directionally conveyed by an infusion pump 37 disposed in a rear chamber of the separation chamber 32, has completed slag filtration. The blocking net 34 can block the non-deposited slag, thereby avoiding the slag from being pulled by the infusion pump 37, and improving the purity of the recovered cooling liquid. Preferably, the output end of the draft tube 36 is further provided with a filter 38 for purifying the coolant to remove small-sized impurities such as dust contained in the coolant. The filter 38 enables the cooling fluid to be effectively filtered in such a way that a differential pressure can be established across the filter membrane. The slag discharging mechanism 31 that this application set up can be through the mode of directional transportation with the separation chamber 32 in by interception net 34 interception and take place to continue the outer row of slag charge that subsides to guaranteed separation chamber 32's smoothness, make it can be by continuously transferring through interception and the deposited slag charge of mode of standing, guarantee that it can filter and subside continuously, realize effectively retrieving slag charge such as piece and dust. In addition, the buffer mechanism 33 is arranged to enable the mixed liquid flow to smoothly enter the separation cavity 32, so that fluctuation caused by impact of the solution in the cavity is avoided, and effective standing settlement of the solution at the lower layer is ensured. The utility model is also provided with can carry out effective filterable filtration device 38 to debris such as dust of small diameter to make slag charge separation subassembly 3 backward flow to the coolant liquid of cooling clean assembly 4 have higher purity, and then guaranteed the sustainable work of circulative cooling system.

Preferably, the slag discharging mechanism 31 includes a housing 311, a rotation shaft 312, a screw blade 313, a driving motor 314, and a support 315. Preferably, one end of the housing 311 communicates with the deposition chamber 323, and the screw blades 313 are disposed on the rotation shaft 312 in a spiral surrounding manner to constitute a rotary discharge structure. It is further preferred that the rotary discharge structure is inserted in the housing in such a way that the propeller blades 313 are matched to the chambers of the housing 311 and that the rotary shaft 312 coincides with the axis of the housing 311. Preferably, one end of the rotary discharge structure extends from the chamber defined by the housing 311 into the deposition chamber 323, such that the screw paddles 313 rotating about the rotation axis 312 are capable of controlling the directional discharge of deposited slag out of the deposition chamber 323. Specifically, the bottom of the deposition chamber 323 is provided with a cylindrical chamber matching the external dimensions of a partial section of the screw blade 313. It is further preferred that the top of the cylindrical chamber communicates with other chambers of the deposition chamber 323, and that the cylindrical chamber and the axis are disposed obliquely in such a manner that the axis of the housing 311 coincides. Preferably, the housing 311 is obliquely inserted in the accommodation chamber 11, and an inclined upper end of the housing 311 away from the deposition chamber 323 extends to the outside of the table 1 through a chamber wall of the accommodation chamber 11. Preferably, the lower surface of the housing 311, which is outside the table 1, is in communication with a collection bin 316. Preferably, the inclined upper end of the housing 311 is further provided with a driving motor 314 drivingly connected to the rotation shaft 312, and the inclined lower end of the rotation shaft 312 is positioned in the deposition chamber 323 by a support 315. The slag discharging mechanism 31 with the spiral structure can continuously drive deposited slag to discharge the separating cavity 32, so that effective recovery of slag and effective circulation of cooling liquid are realized, and sustainable working performance of the tool is improved. The defect that the existing slag recovery structure needs to be cleaned regularly and is blocked in long-time filtering operation is avoided.

As shown in fig. 2, the separation chamber 32 has its input chamber 321 and output chamber 322 arranged in parallel in a manner to construct a U-shaped chamber. Preferably, the axially lower ends of the input chamber 321 and the output chamber 322 communicate through a deposition chamber 323. Preferably, the input end of the output chamber 322 is provided with an interception net 34 so that the mixed liquid stream flowing into the separation chamber 32 can be filtered by the interception net 34 in the process of forming the equal-height liquid level, and the cooling liquid after slag removal enters the output chamber 322. The slag discharging mechanism 31 is partially inserted into the deposition chamber 323. A recoil drain 35 is also preferably provided in the output chamber 322 above the interception net 34. Preferably, the recoil drain 35 includes a dense exhaust line disposed in the output chamber 322, and a plurality of air outlets are arrayed on the exhaust line, and the spraying direction of the air outlets is perpendicular to the mesh surface of the interception mesh 34. The input end of the close-packed air outlet pipeline is provided with an air inlet pipe communicated with the outside, and the air inlet pipe is provided with a pressurizing driving pump so as to convey pressurized air flow to forcefully blow and dredge the interception net 34. Specifically, the recoil drain 35 can open the mesh of the interception net 34 blocked by the slag in such a manner that the flushing air flow is sprayed toward the interception net 34. Preferably, a baffle plate 324 capable of buffering the flushing air flow released by the recoil drain 35 is further arranged below the interception net 34, and the baffle plate 324 is installed at the position of an output port of the deposition chamber 323. Preferably, an infusion pump 37 is provided in the output chamber 322 in communication with a draft tube 36 extending through the wall of the chamber, the draft tube 36 being in communication with the cooling cleaning assembly 4 through a permeate filter 38. The separation chamber 32 in the U-shaped chamber shape provided by the application can enable the mixed liquid flow to be filtered under the hydraulic action generated by the liquid level difference existing by the mixed liquid flow through the physical characteristics of equipotential hydraulic pressure, so that the efficiency and the effect of slag filtering are ensured.

Preferably, the buffer mechanism 33 includes a slow flow plate 331 and an overflow chamber 332. Further preferably, the slow flow plates 331 are alternately arranged at intervals on the cavity wall of the input chamber 321. As shown in fig. 3, the slow flow plate 331 is provided with a slow flow groove 333 intersecting the flow direction of the liquid flow. Specifically, an overflow chamber 332 is provided downstream of the slow flow plate 331, and an overflow port of the overflow chamber 332 is provided with an inclined baffle 334.

Preferably, the filter device 38 is arranged above the support frame 12 constructed by the table 1. Preferably, the input and output ends of the permeate chamber 381 of the permeate apparatus 38 are in communication with the draft tube 36 and the reservoir 41 of the cooling cleaning assembly 4, respectively. The filter cavity 381 is separated by a filter membrane 382. Preferably, the filter membrane 382 can be stretched and straightened by the plate frame, and an opening capable of being obliquely inserted into the plate frame laid with the filter membrane 382 is formed in the cavity side wall of the filter cavity 381, and a limit strip capable of being butted with the opening and capable of limiting the oblique cutting state of the inserted plate frame is arranged on the cavity inner wall. The limit bar can limit the position of the plate frame in the filter cavity 381, and the opening position is also provided with a sealing cover body for sealing the opening. This application is through setting up the subchamber that has the difference in height in straining film 382 both sides to make backward flow coolant liquid can accomplish the filtration under the hydraulic drive that self gravity formed, thereby make it utilize straining film 382 to promote the purity, guarantee the validity of secondary cooling.

Preferably, the cooling cleaning assembly 4 includes a liquid storage chamber 41, a pressurizing pump 42, an on-off valve 43, a drain tube 44, and a shower head 45. Preferably, the output end of the liquid storage chamber 41 communicates with a drain pipe 44, the input end of which is provided with a pressurizing pump 42 and an on-off valve 43, and the output end of the drain pipe 44 communicates with a shower head 45 suspended in the grinding space. Preferably, the coolant sprayed by the spray header 45 is capable of covering the contact area between the grinding assembly 2 and the plastic steel profile

The utility model is not limited to the above-described alternative embodiments, and any person who may derive other various forms of products in the light of the present utility model, however, any changes in shape or structure thereof, all falling within the technical solutions defined in the scope of the claims of the present utility model, fall within the scope of protection of the present utility model. It should be understood by those skilled in the art that the present description and drawings are illustrative and not limiting to the claims. The scope of the utility model is defined by the claims and their equivalents. Throughout this document, the word "preferably" is used in a generic sense to mean only one alternative, and not to be construed as necessarily required, so that the applicant reserves the right to forego or delete the relevant preferred feature at any time.

Claims

1. The deburring tool with the waste separation for the plastic steel section bar comprises a workbench (1), wherein a polishing component (2) capable of deburring a notch area of the plastic steel section bar is arranged on the workbench (1), the deburring tool is characterized in that a slag separation component (3) capable of filtering slag of a slag and cooling liquid mixture converged by the workbench (1) is arranged in a containing cavity (11) in the workbench (1),

the slag separation assembly (3) is provided with a slag discharging mechanism (31) in a mode of continuously outputting filtered slag, the slag discharging mechanism (31) is obliquely inserted into a separation cavity (32), and a part of main body of the slag discharging mechanism (31) penetrates through the cavity wall of the accommodating cavity (11) and extends to the outside of the workbench (1);

a buffer mechanism (33) capable of buffering the mixed liquid flow input through the collecting port of the top cavity wall of the accommodating cavity (11) is arranged in the separating cavity (32), and the buffer mechanism (33) is positioned above a part of the main body of the separating cavity (32) where the slag discharging mechanism (31) is inserted, so that slag which is settled in the separating cavity (32) in a standing way can be discharged through the slag discharging mechanism (31).

2. The deburring tool with scrap separation of plastic steel profiles according to claim 1, characterized in that the separation chamber (32) has its input chamber (321) and output chamber (322) arranged in parallel in a manner of constructing a U-shaped chamber, and the input chamber (321) communicates with the axially lower end of the output chamber (322) through a deposition chamber (323);

the input end of the output cavity (322) is provided with an interception net (34) so that the mixed liquid flow converged into the separation cavity (32) can be filtered by the interception net (34) in the process of forming the equal-height liquid level, and the cooling liquid after slag charge filtration enters the output cavity (322),

the slag discharging mechanism (31) is partially inserted into the deposition cavity (323).

3. The deburring tool with scrap separation of plastic steel profiles according to claim 2, characterized in that a backflushing drain pipe (35) is also arranged in the output chamber (322) above the interception net (34), the backflushing drain pipe (35) being capable of dredging the mesh of the interception net (34) blocked by slag in such a way that a flushing air flow is sprayed to the interception net (34);

an infusion pump (37) communicated with a flow guide pipe (36) penetrating through the cavity wall of the output cavity (322) is arranged in the output cavity, and the flow guide pipe (36) is communicated with the cooling cleaning assembly (4) through a filtering device (38).

4. The deburring tool with plastic steel profile separated by scrap according to claim 3, characterized in that the slag extractor (31) comprises a housing (311), a rotary shaft (312), a propeller blade (313), a drive motor (314) and a support (315), wherein,

one end of the shell (311) is communicated with the deposition cavity (323), the screw blades (313) are arranged on the rotating shaft (312) in a spiral surrounding mode to form a rotary discharging structure, and the rotary discharging structure is inserted in the shell in a mode that the screw blades (313) are matched with a cavity of the shell (311) and the rotating shaft (312) is overlapped with an axis of the shell (311);

one end of the rotary discharge structure extends from a chamber defined by the housing (311) into the deposition chamber (323).

5. The deburring tool as claimed in claim 4, characterized in that the housing (311) is inserted obliquely into the receiving cavity (11) and the inclined upper end of the housing (311) remote from the deposition cavity (323) extends through the cavity wall of the receiving cavity (11) to the outside of the table (1), the lower surface of the housing (311) outside of the table (1) being in communication with a collection bin (316);

the upper inclined end of the shell (311) is also provided with the driving motor (314) in transmission connection with the rotating shaft (312), and the lower inclined end of the rotating shaft (312) is positioned in the deposition cavity (323) through a supporting piece (315).

6. The deburring tool with plastic steel profile separated by waste as claimed in claim 5, wherein the buffer mechanism (33) comprises a slow flow plate (331) and an overflow cavity (332), the slow flow plate (331) is alternately arranged on the cavity wall of the input cavity (321) at intervals, and slow flow grooves (333) intersecting the flow direction of the liquid flow are formed in the slow flow plate (331);

the overflow cavity (332) is arranged at the downstream of the slow flow plate (331), and an overflow port of the overflow cavity (332) is provided with an inclined guide plate (334).

7. The deburring tool with plastic steel profile separated by waste material as claimed in claim 6, characterized in that the filtration device (38) is arranged above the supporting frame body (12) constructed by the workbench (1), the input end and the output end of the filtration cavity (381) of the filtration device (38) are respectively communicated with the guide pipe (36) and the liquid storage cavity (41) of the cooling and cleaning assembly (4),

the filtration cavity (381) is partitioned by a filtration membrane (382).

8. The deburring tool as claimed in claim 7, characterized in that a baffle plate (324) is provided under the blocking screen (34) for buffering the flushing air flow released by the backflushing pipe (35), said baffle plate (324) being mounted at the outlet end of the deposition chamber (323).

9. The deburring tool as claimed in claim 8, characterized in that the grinding assemblies (2) are arranged on the inner side walls of the frame body of the grinding space divided by the support frame body (12), and at least two grinding assemblies (2) are arranged on the inner side walls of two adjacent and mutually perpendicular frame bodies;

the top of the supporting frame body (12) supports the cooling cleaning assembly (4).

10. The deburring tool with plastic steel profile separated by waste as claimed in claim 9, characterized in that the cooling and cleaning assembly (4) comprises the liquid storage cavity (41), a pressurizing pump (42), an on-off valve (43), a drainage tube (44) and a spray header (45),

the output end of the liquid storage cavity (41) is communicated with the drainage tube (44) of which the input end is provided with the pressurizing pump (42) and the switching valve (43), and the output end of the drainage tube (44) is communicated with the spray header (45) suspended in the polishing space.