CN105690227A - Polishing device and polishing system - Google Patents

Abstract

The invention provides a polishing device and a polishing system. The polishing device includes a fixing support, a damping part arranged on the fixing support, and an abrasive cloth installation zone positioned on the damping part. During use, an abrasive cloth is arranged on the abrasive cloth installation zone of the damping part, the fixing support is arranged on a device such a lathe carriage, the position of the damping device on the polishing device is adjusted in a first direction, and then the abrasive cloth is attached to a surface of an article to be polished; and when the article to be polished moves, the article to be polished has a friction with a surface of the abrasive cloth, and then polishing of the surface of the article to be polished can be completed. Through the polishing device, direct contact between an operator and the abrasive cloth and the article to be polished can be avoided; the operation intensity of works can be reduced, and the potential risk during manual operation can be lowered; and in addition, the damping device can effectively relieve vibration of the article to be polished or vibration of the polishing device due to a defect of surface evenness of the article to be polished during a polishing process, the safety can be improved during polishing of the article to be polished, and the polishing effect can be improved.

Description

Burnishing device and polishing system

Technical field

The present invention relates to mechanical field, particularly relate to a kind of burnishing device and polishing system。

Background technology

Grinding and polishing process is the conventional process of mechanical surface processing, and it adopts the surface of Sandpapering parts, to reach processing component surface to specific roughness, and improves the purpose of parts surface flatness。

In lathe lapping, polished parts are arranged on lathe, attach rubber on the surface of described polished object；Actively drive described polished object around main shaft axial rotation with lathe so that described rubber rubs polished object surface。

Existing in lathe lapping specific operation process, the methods adopting artificial hand-held rubber carry out the polishing grinding process of parts more。Specifically, the hand-held rubber of operator, the rubbing surface of rubber is coated on the surface of parts to be processed。

One time lathe lapping technique needs last longer, thus the labor intensity of operator is bigger；And, in lathe lapping process, operator need to apply suitable power to sand paper, to strengthen polishing frictional force, improve polishing effect and efficiency, but bigger based on physical labor intensity, it is difficult in whole lathe lapping process, it is difficult to maintain stable power all the time, thus reducing polishing effect；Additionally, in lathe lapping process, parts to be processed are along with the main shaft high-speed rotation of lathe, operator are careless slightly, the parts to be processed rotated can get to operator's hands, is involved in lathe by the human body of operator what is more, and the potential safety hazard of lathe lapping process is bigger。

For this, how to improve lathe lapping efficiency, quality, and reduce the potential safety hazard in lathe lapping process, be those skilled in the art's problems of needing solution badly。

Summary of the invention

The problem that this invention address that is to provide a kind of burnishing device and polishing system, improves the labor intensity of lathe lapping efficiency, the quality of finish of polished object, reduction operator, and reduces the potential safety hazard of lathe lapping。

For solving the problems referred to above, burnishing device provided by the invention, including:

Fixed support；

Damping part, is arranged on described fixed support, and can adjust the position being positioned on described fixed support in the first direction:

Described damping part includes rubber installation region, is used for installing rubber。

Alternatively, described damping part offers strip groove, and described strip groove is arc-shaped surface structure in the cross section being perpendicular on its bearing of trend；The surface of described arc-shaped surface is formed with described rubber installation region。

Alternatively, described first direction is perpendicular to the bearing of trend of described strip groove。

Alternatively, described fixed support includes pedestal and connecting rod, and one end of described connecting rod is installed on described pedestal；

Described damping part is arranged on described pedestal。

Alternatively, described pedestal offers fixed groove, and described damping part is fixed in described fixed groove；

Described strip groove is opened in described damping part and exposes on the surface of opening of described fixed groove。

Alternatively, the bottom of described arc-shaped surface is positioned at described fixed groove。

Alternatively, along described first direction, between described pedestal and connecting rod, it is provided with multiple junction point。

Alternatively, described damping part adopts high temperature resistant elastomeric material to make。

Alternatively, described high temperature resistant elastomeric material is plastics。

Alternatively, in the rubber installation region of described damping part, it is provided with rubber installing component, is used for rubber is installed。

Alternatively, described rubber installing component is VELCRO。

The polishing system that the present invention also provides for, including above-mentioned burnishing device, and:

Polished object controls device, is used for installing polished object, is additionally operable to control described polished object around the second axial rotation；

Lathe saddle, is used for installing described burnishing device, is additionally operable to control described burnishing device and moves towards the direction of described polished object along described lathe saddle。

Alternatively, when offering described strip groove on described damping part, described second is axially parallel to the bearing of trend of described strip groove。

Alternatively, described first direction is perpendicular to the described lathe saddle direction towards described polished object。

Alternatively, described lathe saddle is towards the bearing of trend in the direction of described polished object, strip groove, and described first direction is vertical between two。

Compared with prior art, technical scheme has the advantage that

The damping part that burnishing device includes fixed support, is arranged on fixed support, and it is positioned at the rubber installation region on damping part。In use procedure, rubber is arranged on the rubber installation region of described damping part, fixed support is arranged on the equipment such as such as lathe saddle, and adjust the position of described damping part in the first direction, described rubber is made to be attached to polished object surface, rub with rubber surface when described polished object moves, complete the polishing of polished body surface。Compared to the process that existing artificial hand-held rubber is polished, adopt above-mentioned burnishing device to avoid operator directly and rubber and polished object come in contact, thus potential safety hazard when reducing manual operation intensity and manual operation；In addition described damping part can effectively be alleviated in polishing process, causes the vibration of burnishing device based on vibration or the polished object surface flatness defect of polished object, thus the effect of the safety improved in polished polishing article process and polishing。

Still optionally further, described damping part offers strip groove, and described strip groove is arc-shaped surface structure in the cross section being perpendicular on bearing of trend；The surface of described arc-shaped surface forms described rubber installation region。When polished object is around a certain specific axial-rotation, described arc-shaped surface can be fitted described polishing article surface, improves the contact area of rubber and polished object, thus improving polishing efficiency。

Polishing system includes above-mentioned burnishing device, for installing polished object and controlling polished object and control device around the polished object of the second axial choosing dress, and for installing the lathe saddle of described burnishing device。Described polished object controls device and controls described polished object around the second axial-rotation；Described lathe saddle is used for installing described burnishing device, and control described burnishing device and move towards the direction of described polished object along described lathe saddle, the polished object surface thus the rubber on burnishing device is fitted, apply the rubber power towards described polished object simultaneously, thus improving rubber and described polished isoelectric membrane compactness, improve the polishing efficiency of polished object；In this external polishing process, burnishing device is directly supported by outside lathe saddle, thus human body and burnishing device and polished isoelectric membrane can be avoided, thus improving the safety of glossing。

Accompanying drawing explanation

The structural representation that Fig. 1 provides for burnishing device one embodiment of the present invention；

Fig. 2 is the schematic diagram during burnishing device use in Fig. 1；

Fig. 3 is the attachment structure schematic diagram of the pedestal of burnishing device and connecting rod；

Fig. 4 polishes, for the present invention, the structural representation that polishing system one embodiment provides。

Detailed description of the invention

As described in background, in existing lathe lapping technique, it is necessary to the hand-held rubber of operator, make rubber and polished isoelectric membrane, and made polished object surface and rubber occur friction to complete the polishing of polished object surface by the rotation of polished object。In above-mentioned lathe lapping process, operator are hand-held rubber all the time, and constantly applies the power towards polished object to rubber, and the labor intensity of whole polishing process is bigger；And, the machine tool chief axis based on the rotation controlling polished object continues to rotate, and there is the potential safety hazard that human body is involved in lathe, and operational danger is big。

For this, the invention provides a kind of burnishing device and polishing system。

Described burnishing device includes: fixed support；Damping part, is arranged on described fixed support, and can adjust the position being positioned on described fixed support in the first direction: described damping part includes rubber installation region, is used for installing rubber。

In use procedure, rubber is arranged on described damping part, fixed support is arranged on the equipment such as such as lathe saddle, and adjust the position of described damping part in the first direction, described rubber is made to be attached to polished object surface, rub with rubber surface when described polished object moves, complete the polishing of polished body surface。

Compared to the process that existing artificial hand-held rubber is polished, adopt above-mentioned burnishing device to avoid operator directly and rubber and polished object come in contact, thus potential safety hazard when reducing manual operation intensity and manual operation；In addition described damping part can effectively be alleviated in polishing process, causes the vibration of burnishing device based on vibration or the polished object surface flatness defect of polished object, thus the effect of the safety improved in polished polishing article process and polishing。

Understandable for enabling the above-mentioned purpose of the present invention, feature and advantage to become apparent from, below in conjunction with accompanying drawing, specific embodiments of the invention are described in detail。

The structural representation of the burnishing device that Fig. 1～Fig. 3 provides for the present embodiment。

In conjunction with reference to Fig. 1 and Fig. 2, the burnishing device that the present embodiment provides includes:

Fixed support 10 and the damping part 11 being arranged on described fixed support 10。

Described damping part 11 is provided with rubber installation region (not indicating in figure), is used for installing rubber 20。

During use, described fixed support 10 may be installed on the equipment such as the lathe cutter saddle of outside, and make described rubber 20 surface be attached to polished object surface, and can pass through mobile or rotate described polished object or mobile described burnishing device makes rubber 20 and polished object surface rub, polish realizing polished object surface。

In the present embodiment, described damping part 11 can adopt resistant to elevated temperatures elastomeric material to make。

Rubber 20 rub described polished object surface process in, the vibration produced when described damping part 11 can effectively alleviate polished object or burnishing device moves, thus improving in polishing process, the stability of the equipment of polished object, burnishing device and installation burnishing device, to improve the safety of glossing；And, in polishing process, even if described polished object surface flatness is poor, based on the elastic characteristic of described damping part 11, described rubber 20 can be made to be attached to the surface of polished object all the time, thus improving the polishing efficiency of polished object；Additionally, adopt the damping part that exotic material is made effectively to alleviate in polishing process, make the defect of damping part generation deformation based on rubber 20 and the produced heat of polished object friction。

Alternatively, described damping part 11 can adopt resistant to elevated temperatures plastics to make。

In the present embodiment, described fixed support 10 includes pedestal 15, offering fixed groove (not indicating in figure) on described pedestal 15, described damping part 11 is embedded in described groove, and described rubber 20 is arranged on described damping part 11 and exposes on the surface of described fixed groove opening。

Described pedestal 15 can adopt the material that metal equal strength is bigger to make。

Described damping part 11 is embedded in described pedestal 15, can improve damping part 11 and the bonding strength of pedestal 15, reduces in polishing process, vibration that described damping part 11 occurs and displacement。

Alternatively, described pedestal 15 also can arrange the screw embedded in described damping part 11, to improve the fixing intensity of described damping part 11 further, reduce described damping part 11 when deformation occurs, and described damping part 11 is fixed on the stability influence on fixed support 10 by the movement and deformation based on described damping part 11。

Still optionally further, bottom the fixed groove of described pedestal 11, also can offer locating slot further, make the cross section bottom described pedestal 11 stepped；Correspondingly, described damping part 11 arranges projection, described projection embeds in the locating slot bottom the fixed groove of described pedestal, thus improving the described damping part 11 fixing intensity in the fixed groove of described pedestal 15, reduce further in polishing process, the displacement that described damping part 11 occurs。

In conjunction with the schematic diagram that reference Fig. 2, Fig. 2 are during the use of the present embodiment burnishing device。

In existing lathe lapping technique, polished object 30 can be arranged in a lathe (not shown), and polished object 30 is around the second axial rotation described in Machine-Tool Control, to improve the polishing efficiency of polished object 30。

In the present embodiment, offering strip groove (in figure non-label) on described damping part 11, described strip groove is opened in described damping part 11 and exposes on the surface of opening of described fixed groove；And described strip groove is arc-shaped surface structure in the cross section being perpendicular on bearing of trend；The surface of described arc-shaped surface is formed with described rubber installation region。

Alternatively, described second is axially parallel to the bearing of trend of described strip groove, during use, makes described polished object 30 be embedded in described strip groove, thus improving the contact area of described rubber 20 and polished object 30, improves polishing efficiency。

Still optionally further, the bottom (position that namely arc-shaped surface is the deepest) of described arc-shaped surface is positioned at the fixed groove of described pedestal 15, when making to polish, the vibration produced based on polished object 30 can be transferred on described pedestal 15, reduce the power that damping part 11 is subject to, improve the pedestal 15 support degree for damping part 11。

Alternatively, in the rubber installation region of described damping part 11, it is provided with rubber installing component 12, is used for rubber 20 is installed。

In the present embodiment, described rubber installing component 12 is VELCRO, and described VELCRO is fixed in the arc-shaped surface of described strip groove, and described rubber 20 sticks in described VELCRO。

VELCRO is adopted to make rubber 20 be fixed on described damping part 11 as rubber installing component 12, thus the convenience that rubber 20 is changed can be improved。

In the present embodiment, described damping part 11 is arranged on described fixed support 10, and can adjust the position being positioned on described fixed support 10 in the first direction。

Alternatively, described first direction (A to) is perpendicular to the bearing of trend of the strip groove of described damping part 11。

In use, after fixed support 10 is arranged on lathe cutter saddle as will be described, can pass through to regulate the position on described damping part 11 (A to) in a first direction, make the axially axial with described polished object 30 rotates second corresponding of described strip groove。

In the present embodiment, institute's fixed support 10 also includes the connecting rod 13 that one end is fixed on described pedestal 15, and described connecting rod 13 other end can be fixed on the external equipments such as lathe cutter saddle or for human hand held。And along described first direction, be provided with multiple junction point between described pedestal 15 and connecting rod, thus damping part 11 position in a first direction described in scalable。

In conjunction with reference to Fig. 3, it is achieved the structure that described damping part 11 moves in a first direction specifically includes:

Described pedestal 15 is installed connecting plate 14, described connecting plate 14 offers multiple A in the first direction installing hole 141 to arrangement；Described connecting rod 13 also is provided with multiple A in the first direction installing hole 131 to arrangement。

During use, the installing hole 131 making connecting rod 13 is corresponding with the installing hole 141 on connecting plate 14, and installs the structures such as bolt in corresponding installing hole and be connected with pedestal 15 to realize connecting rod 13；Change the installing hole that connecting rod 13 is corresponding in the first direction with on connecting plate 14 simultaneously, be positioned at the position on described fixed support 10 regulating described damping part 11 (A to) in the first direction。

Except of course that above by outside the installing hole respectively arranging multiple correspondence on described connecting plate 14 and connecting rod 13 in the first direction, also by arranging such as on described pedestal 15: the sliding rail extended in a first direction, one end of described connecting rod 13 embeds in described sliding rail, and the structures such as positioner are set on sliding rail, to realize the purpose of the upper movement of described damping part 11 (i.e. A to) in a first direction。Above-mentioned simple change is all in protection scope of the present invention。

The polishing system that the present invention also provides for includes: burnishing device described above, and,

Polished object controls device, is used for installing polished object, is additionally operable to control described polished object around the second axial rotation；

Lathe saddle, is used for installing described burnishing device, and controls described burnishing device and move towards the direction of described polished object along described lathe saddle。

Fig. 4 is the structural representation of polishing system one embodiment of the present invention。

In the present embodiment, described lathe saddle 40 clamps the other end of described connecting rod 13, thus being fixed on described lathe saddle by described burnishing device 13。

During use, described polished object controls device (not shown) and controls described polished object 30 around the second axial-rotation, and described lathe saddle 40 to control described burnishing device mobile towards the direction (B to) of described polished object 30 along described lathe saddle 40, thus applying the power towards described polished object 30 on described rubber 20, to improve polishing efficiency。

Alternatively, when offering described strip groove on described damping part 11, described second is axially parallel to the bearing of trend of described strip groove；

Described first direction (A to) is perpendicular to the described lathe saddle direction towards described polished object, for the position of the described strip groove adjusted on described damping part 11, make described strip groove corresponding with the axial rotary of polished object 30。

Still optionally further, described lathe saddle is towards the bearing of trend in the direction of described polished object, strip groove, and described first direction is vertical between two。Thus adjusting the position between described polished object 30 and described rubber 20 three dimensions, to improve accuracy and the quality of finish of polishing。

During use, described polished object controls device and controls described polished object 30 around the second axial-rotation；Described lathe saddle 40 controls described burnishing device and moves to the direction of described polished object 30 along described lathe saddle 40, polished object 30 surface thus the rubber 20 on burnishing device is fitted, apply the rubber 20 power towards described polished object 30 simultaneously, thus improving rubber 20 and described polished object 30 closeness of contact, improve the polishing efficiency of polished object 30；In this external polishing process, burnishing device is directly supported by outside lathe saddle 40, thus human body and burnishing device and polished isoelectric membrane can be avoided, thus improving the safety of glossing。

Although present disclosure is as above, but the present invention is not limited to this。Any those skilled in the art, without departing from the spirit and scope of the present invention, all can make various changes or modifications, and therefore protection scope of the present invention should be as the criterion with claim limited range。

Claims (15)

1. a burnishing device, it is characterised in that including:

Fixed support；

Damping part, is arranged on described fixed support, and can adjust the position being positioned on described fixed support in the first direction:

Described damping part includes rubber installation region, is used for installing rubber。

2. burnishing device according to claim 1, it is characterised in that offer strip groove on described damping part, and described strip groove is arc-shaped surface structure in the cross section being perpendicular on bearing of trend；The surface of described arc-shaped surface is formed with described rubber installation region。

3. burnishing device according to claim 2, it is characterised in that described first direction is perpendicular to the bearing of trend of described strip groove。

4. burnishing device according to claim 2, it is characterised in that described fixed support includes pedestal and connecting rod, one end of described connecting rod is installed on described pedestal；

Described damping part is arranged on described pedestal。

5. burnishing device according to claim 4, it is characterised in that described pedestal offers fixed groove,

Described damping part is fixed in described fixed groove；

Described strip groove is opened in described damping part and exposes on the surface of opening of described fixed groove。

6. burnishing device according to claim 5, it is characterised in that the bottom of described arc-shaped surface is positioned at described fixed groove。

7. burnishing device according to claim 4, it is characterised in that along described first direction, is provided with multiple junction point between described pedestal and connecting rod。

8. burnishing device according to claim 1, it is characterised in that described damping part adopts high temperature resistant elastomeric material to make。

9. burnishing device according to claim 8, it is characterised in that described high temperature resistant elastomeric material is plastics。

10. burnishing device according to claim 1, it is characterised in that be provided with rubber installing component in the rubber installation region of described damping part, is used for installing rubber。

11. burnishing device according to claim 10, it is characterised in that described rubber installing component is VELCRO。

12. a polishing system, including the burnishing device described in any one of claim 1～11, it is characterised in that also include:

Polished object controls device, is used for installing polished object, is additionally operable to control described polished object around the second axial rotation；

Lathe saddle, is used for installing described burnishing device, is additionally operable to control described burnishing device and moves towards the direction of described polished object along described lathe saddle。

13. polishing system according to claim 12, it is characterised in that when offering described strip groove on described damping part, described second is axially parallel to the bearing of trend of described strip groove。

14. polishing system according to claim 12, it is characterised in that described first direction is perpendicular to the described lathe saddle direction towards described polished object。

15. polishing system according to claim 13, it is characterised in that described lathe saddle is towards the bearing of trend in the direction of described polished object, strip groove, and described first direction is vertical between two。