CN206662964U - Numerical-control polishing equipment - Google Patents

Abstract

The utility model discloses numerical-control polishing equipment, and it includes frame, and the bottom of frame is provided with Y-axis slide rail, and slide unit is slidably connected on Y-axis slide rail, and the upper surface of slide unit is provided with the frock for being used for fixing workpiece；The top of the frame is provided with X-axis slide rail, and slide is slidably connected in X-axis slide rail；The slide is provided with Z axis slide rail, and main shaft fixture is slidably connected in Z axis slide rail；Live spindle is connected with the main shaft fixture, the bottom of live spindle is connected with grinding head, pressure sensor is provided between the live spindle and main shaft fixture；The X-axis drive system, Y-axis drive system, Z axis drive system and pressure sensor respectively with a upper mechatronics.The utility model installs pressure sensor between live spindle and main shaft fixture, and a suitable pressure value is kept between grinding head and workpiece so as to control in real time, polishing is smoothed out, workpiece will not be allowed to deform again.

Description

Numerical-control polishing equipment

Technical field

It the utility model is related to polishing field, more particularly to numerical-control polishing equipment.

Background technology

In the final stage of precision workpiece processing, good surface treatment can reduce the abrasion of product, improve client's Satisfaction, it is an indispensable important step.The metal works being more particularly applied in high voltage environment, it is bright Surface quality can greatly reduce failure of being struck sparks because of caused by point discharge.

Polishing is current increase workpiece surface finish, reduces the main method of roughness.The conventional polishing of metal works Method substantially has：1st, important workpiece uses grinding-material and electric tool hand polish.2nd, electricity is used when burr is less Stream corrodes to the microcosmic projection of material surface in the electrolytic solution.3rd, require not allowing strictly yielding workpiece to use vibrations Polishing.

If precision component, due to the deficiency of worker's experience, easily causes some not during hand polish at present Good consequence：1st, the pressure that milling tool is applied to part can be deformed part beyond the critical point of deformation.2nd, grinding head exists The pressure and grinding rate of each position are inconsistent, cause piece surface piebald occur.3rd, grinding head stops in parts locally position Stay too long, piece surface is crossed thermal burn, or cross and cut influence size.4th, grinding head is easily beated in part boundary position Cause hand-held shakiness, to product with severe impact, cause waste product and tool damage.5th, when hand polish fixes bulk article, have Very big possibility makes the characteristic of product inconsistent.

The content of the invention

In order to solve deficiency of the prior art, the purpose of this utility model is that polish pressure can be controlled by providing one kind Ensure the numerical-control polishing equipment that polishing is smoothed out.

To achieve the above object, the utility model uses following technical scheme：

Numerical-control polishing equipment, it includes frame, and the bottom of frame is provided with Y-axis slide rail, cunning is slidably connected on Y-axis slide rail Platform, the slide unit are driven by Y-axis drive system, and the upper surface of the slide unit is provided with the frock for being used for fixing workpiece；The frame Top be provided with X-axis slide rail, slidably connect slide in X-axis slide rail, the slide is driven by X-axis drive system；On the slide Provided with Z axis slide rail, main shaft fixture is slidably connected in Z axis slide rail, the main shaft fixture is driven by Z axis drive system；The main shaft Live spindle is connected with fixture, the bottom of live spindle is connected with grinding head, set between the live spindle and main shaft fixture There is pressure sensor；The X-axis drive system, Y-axis drive system, Z axis drive system and pressure sensor are upper with one respectively Mechatronics.

The X-axis drive system, Y-axis drive system and Z axis drive system include motor and the silk with motor connection Stem nut pair.

It also includes the lapping liquid shower nozzle for being located at grinding head side.

The utility model uses above structure, has the advantages that：The utility model is controlled with numerical control program and ground Head moves on the surface of the workpiece according to corresponding track, while sprinkling has added the suspended of grounds travel between grinding head and workpiece Liquid, reach polishing purpose；In addition, pressure sensor is installed between live spindle and main shaft fixture, so as to control grinding in real time A suitable pressure value is kept between head and workpiece, polishing is smoothed out, workpiece will not be allowed to deform again.

Brief description of the drawings

The utility model is described in further details below in conjunction with the drawings and specific embodiments；

Fig. 1 is the overall schematic diagram of the utility model；

Fig. 2 is the schematic diagram that live spindle is connected with pressing jig.

Embodiment

As shown in Figure 1 or 2, the utility model includes frame 1, and the bottom of frame 1 is provided with Y-axis slide rail 2, on Y-axis slide rail 2 Slide unit 3 is slidably connected, the slide unit 3 is driven by Y-axis drive system 4, and the upper surface of slide unit 3 is provided with the work for being used for fixing workpiece Dress（Not shown in figure）；The top of frame 1 is provided with X-axis slide rail 5, slidably connects slide 6 in X-axis slide rail 5, the slide 6 is by X-axis Drive system 7 drives；Slide 6 is provided with Z axis slide rail 8, and main shaft fixture 9 is slidably connected in Z axis slide rail 8, the main shaft fixture 9 by Z axis drive system 10 drives；Live spindle 11 is connected with main shaft fixture 9, the bottom of live spindle 11 is connected with grinding head 12, Pressure sensor 13 is provided between live spindle 11 and main shaft fixture 9；X-axis drive system 7, Y-axis drive system 4, Z axis drivetrain System 10 and pressure sensor 13 respectively with a host computer（Not shown in figure）Electrical connection.

In addition, numerical-control polishing equipment of the present utility model also includes the lapping liquid shower nozzle for being located at the side of grinding head 12（In figure It is not shown）.

Wherein, X-axis drive system 7, Y-axis drive system 4 and Z axis drive system 10 include motor and and motor connection Feed screw nut pair.

Operation principle of the present utility model：Existed on host computer with numerical control program control grinding head 12 according to corresponding track Moved on workpiece surface, while sprinkling has added the suspension of grounds travel between grinding head 12 and workpiece, reaches polishing purpose；Separately Outside, pressure sensor 13, the pressure signal that pressure sensor 13 will detect are installed between live spindle 11 and main shaft fixture 9 Host computer is transferred to, so as to which control live spindle is finely tuned about 11 in real time and the pressure of grinding head 12 is maintained at a suitable pressure Value, is smoothed out polishing, workpiece will not be allowed to deform again.

Claims (3)

1. numerical-control polishing equipment, it is characterised in that：It includes frame, and the bottom of frame is provided with Y-axis slide rail, slided on Y-axis slide rail Slide unit is connected with, the slide unit is driven by Y-axis drive system, and the upper surface of the slide unit is provided with the frock for being used for fixing workpiece； The top of the frame is provided with X-axis slide rail, slidably connects slide in X-axis slide rail, the slide is driven by X-axis drive system；Institute State slide and be provided with Z axis slide rail, slidably connect main shaft fixture in Z axis slide rail, the main shaft fixture is driven by Z axis drive system； Live spindle is connected with the main shaft fixture, the bottom of live spindle is connected with grinding head, the live spindle and main shaft folder Pressure sensor is provided between tool；The X-axis drive system, Y-axis drive system, Z axis drive system and pressure sensor difference With a upper mechatronics.

2. numerical-control polishing equipment according to claim 1, it is characterised in that：The X-axis drive system, Y-axis drive system Include motor and the feed screw nut pair with motor connection with Z axis drive system.

3. numerical-control polishing equipment according to claim 1, it is characterised in that：It also includes the grinding for being located at grinding head side Liquid shower nozzle.