CN206598194U - A kind of three-shaft linkage numerical-control end face grinding machine cutter holder device - Google Patents

Abstract

The utility model discloses a kind of three-shaft linkage numerical-control end face grinding machine cutter holder device, include base, the linkage transmission structure on base and the extension knife rest on linkage transmission structure, the linkage transmission structure is three-shaft linkage drive mechanism, it includes the horizontal rotation component for being arranged at the horizontal translation component of base, being arranged at the vertical lift component of horizontal translation component and being arranged at vertical lift component, and the extension knife rest is arranged at horizontal rotation component.The utility model uses three-shaft linkage drive mechanism, can effectively bear the power that workpiece is horizontally and vertically synthesized in grinding process, optimize device structure, simplify operational sequence, time saving and energy saving, safe and reliable.

Description

A kind of three-shaft linkage numerical-control end face grinding machine cutter holder device

Technical field

The utility model is related to a kind of grinder structure, belongs to numerically control grinder equipment technical field, refers in particular to a kind of three axle Interlocked numerical controlled face grinding machine cutter holder device.

Background technology

Numerical-control end face grinding machine is widely used in the processing of hardware scissors products, still, current numerical-control end face grinding machine The extension knife rest being generally driven using two-axle interlocking, the extension cutter frame structure of this two-axle interlocking transmission only provides horizontal direction Stress, but it is the power while horizontally and vertically being synthesized to hang knife rest in workpiece grinding process, is so purely held Precision and the equipment life of complete machine can be influenceed by being hung knife rest by horizontal direction power effect, that is to say, that the number of two-axle interlocking transmission Control face grinding machine adapts to product variety relative narrower and is inconvenient to debug, and wastes time and energy, can not meet many of market product The requirement of sample, standardization and the producer to equipment high efficiency.

Utility model content

The purpose of this utility model is to overcome shortcoming and deficiency of the prior art that there is provided a kind of three-shaft linkage numerical control end Face grinding rest device, the cutter holder device use three-shaft linkage drive mechanism, can effectively bear workpiece in grinding process by The power horizontally and vertically synthesized, optimizes device structure, simplifies operational sequence, time saving and energy saving, safe and reliable.

In order to be able to realize above-mentioned purpose, the utility model is realized according to following technical scheme：

A kind of three-shaft linkage numerical-control end face grinding machine cutter holder device, includes base, the linkage transmission structure on base And the extension knife rest on linkage transmission structure, the linkage transmission structure is three-shaft linkage drive mechanism, and it includes setting Horizontal translation component in base, it is arranged at the vertical lift component of horizontal translation component and is arranged at vertical lift component Component is horizontally rotated, the extension knife rest is arranged at horizontal rotation component.

Further, the top surface of the base is the constant inclined surface horizontal by slanted angle.

Further, the horizontal translation component includes translation slide, pan drive motor, translation ball screw and put down Drive rail pair is moved, wherein, the translation slide is arranged on base inclined-plane by translating drive rail pair, the pan drive motor Base side is arranged at, its output shaft is connected with translation ball screw by a shaft coupling, the translation ball screw is flat with being located at Move the translational nut seat transmission threaded of slide bottom.

Further, the translation slide is a polygon polymorphic structure body, and the polygon polymorphic structure body has to be fixed with base The parallel translation slide inclined-plane in inclined-plane, the translation slide flat top surface with plane-parallel and it is connected translation slide inclined-plane and translation The translation slide vertical plane of slide flat top surface.

Further, the vertical lift component includes lift slide, lifting motor and lifting ball screw, its In, the lift slide is located on the outside of translation slide vertical plane, and the lifting motor is fixedly installed in translation slide flat top surface, its Output shaft passes downwardly through a shaft coupling and is connected with lifting ball screw, and the lifting ball screw is with being located at lift slide medial surface Lifting nut seat transmission threaded.

Further, the horizontal rotation component includes rotary drive motor and swivel link, wherein, the rotation driving Motor is fixedly installed on lift slide side, and its output shaft is connected with swivel link by a shaft coupling, and the swivel link passes through Bearing part is arranged at lift slide lateral surface, and it is connected cooperation with hanging knife rest.

Compared with prior art, its advantage is the utility model：

1st, the utility model uses new three-shaft linkage drive mechanism, optimizes the complete machine structure of equipment, improves and set Standby performance so that equipment is suitable for the variation requirement of market product, debugs convenient and swift；And the structure can be held The power horizontally and vertically synthesized in grinding process by workpiece, it is ensured that machining accuracy and structure when it is loaded Rigidity, it is ensured that machine life and its precision；

2nd, the utility model overall structure is in certain angle of inclination, cutting fluid and emery wheel slag can be caused not to end up at knife rest On device, easily sluice and clear up, will not easily corrode machine tool guideway so that service life of equipment is ensured；

3rd, the utility model has the function of assembling multiple extension knife rests simultaneously, can be while the several workpiece of clamping, promote equipment Automated process and improve efficiency, be more suitable for industry 4.0 demand for development.

In order to be able to apparent understanding the utility model, specific reality of the present utility model is illustrated below with reference to brief description of the drawings Apply mode.

Brief description of the drawings

Fig. 1 is dimensional structure diagram of the present utility model.

Fig. 2 is overlooking the structure diagram of the present utility model.

Fig. 3 is left side structure schematic diagram of the present utility model.

Fig. 4 is longitudinal cross section structure diagram of the present utility model.

Embodiment

As shown in Figures 1 to 4, three-shaft linkage numerical-control end face grinding machine cutter holder device described in the utility model, include base 1, Linkage transmission structure 2 on base and the extension knife rest 3 on linkage transmission structure.

The top surface of above-mentioned base 1 is the constant inclined surface 11 horizontal by slanted angle.

Above-mentioned linkage transmission structure 2 is three-shaft linkage drive mechanism, and it includes the horizontal translation component for being arranged at base 21st, it is arranged at the vertical lift component 22 of horizontal translation component and is arranged at the horizontal rotation component 23 of vertical lift component.

Further, the horizontal translation component 21 includes translation slide 211, pan drive motor 212, translation ball wire Bar 213 and translation drive rail pair 214, wherein：To be arranged at base oblique by translating drive rail pair 214 for the translation slide 211 On face 11, translation slide 211 is a polygon polymorphic structure body, and the polygon polymorphic structure body has parallel with base constant inclined surface Translate slide inclined-plane 2111, the translation slide flat top surface 2112 with plane-parallel and be connected translation slide inclined-plane and translation cunning The translation slide vertical plane 2113 of seat flat top surface；The pan drive motor 212 is arranged at the side of base 1, and its output shaft passes through one Axle device 2121 is connected with translation ball screw 213；The translation ball screw 213 and the translational nut seat positioned at translation slide bottom 2131 transmission threadeds.

Further, the vertical lift component 22 includes lift slide 221, lifting motor 222 and lifting ball Screw mandrel 223, wherein：The lift slide 221 is located on the outside of translation slide vertical plane；The lifting motor 222 is fixedly installed on flat Move in slide flat top surface 2112, its output shaft passes downwardly through a shaft coupling 2221 and is connected with lifting ball screw 223；The lifting is rolled Ballscrew 223 is driven threaded with the lifting nut seat 2231 positioned at lift slide medial surface.

Further, the horizontal rotation component 23 includes rotary drive motor 231 and swivel link 232, wherein：Should Rotary drive motor 231 is fixedly installed on lift slide side, and its output shaft is connected with swivel link by a shaft coupling 2311 232；The swivel link 232 is arranged at the lateral surface of lift slide 221 by bearing part, and it is connected cooperation with hanging knife rest 3.

Operation principle of the present utility model is as described below：Workpiece is positioned on extension knife rest, pan drive motor driving translation Moved vertically above and below slide horizontal feed, lifting motor driving lift slide, while knife rest is hung in rotary drive motor driving Horizontal revolving motion is done, and then according to the processing work of technological requirement completion workpiece.

The utility model is not limited to above-mentioned embodiment, if to various changes and modification of the present utility model Spirit and scope of the present utility model are not departed from, if these are changed and modification belongs to claim of the present utility model and equivalent Within technical scope, then the utility model is also intended to comprising these changes and modification.

Claims (6)

1. a kind of three-shaft linkage numerical-control end face grinding machine cutter holder device, include base, the linkage transmission structure on base and Extension knife rest on linkage transmission structure, it is characterised in that：The linkage transmission structure is three-shaft linkage drive mechanism, and it is wrapped Include and be arranged at the horizontal translation component of base, be arranged at the vertical lift component of horizontal translation component and be arranged at vertical liter Come down to a lower group the horizontal rotation component of part, the extension knife rest is arranged at horizontal rotation component.

2. a kind of three-shaft linkage numerical-control end face grinding machine cutter holder device according to claim 1, it is characterised in that：The base Top surface is the constant inclined surface horizontal by slanted angle.

3. a kind of three-shaft linkage numerical-control end face grinding machine cutter holder device according to claim 2, it is characterised in that：The level is put down Move component and include translation slide, pan drive motor, translation ball screw and translation drive rail pair, wherein, the translation is slided Seat is arranged on base inclined-plane by translating drive rail pair, and the pan drive motor is arranged at base side, and its output shaft leads to Cross a shaft coupling and be connected with translation ball screw, the translation ball screw is driven with the translational nut seat positioned at translation slide bottom Threaded.

4. a kind of three-shaft linkage numerical-control end face grinding machine cutter holder device according to claim 3, it is characterised in that：The translation is slided Seat be a polygon polymorphic structure body, the polygon polymorphic structure body have the translation slide inclined-plane parallel with base constant inclined surface, with The translation slide flat top surface and connection translation slide inclined-plane of plane-parallel and the translation slide vertical plane for translating slide flat top surface.

5. a kind of three-shaft linkage numerical-control end face grinding machine cutter holder device according to claim 4, it is characterised in that：The vertical liter Part of coming down to a lower group includes lift slide, lifting motor and lifting ball screw, wherein, the lift slide is located at translation slide On the outside of vertical plane, the lifting motor is fixedly installed in translation slide flat top surface, and its output shaft passes downwardly through shaft coupling company Lifting ball screw is connected to, the lifting ball screw and the lifting nut seat transmission threaded positioned at lift slide medial surface.

6. a kind of three-shaft linkage numerical-control end face grinding machine cutter holder device according to claim 5, it is characterised in that：The level rotation Turn component and include rotary drive motor and swivel link, wherein, the rotary drive motor is fixedly installed on lift slide one Side, its output shaft is connected with swivel link by a shaft coupling, and the swivel link is arranged on the outside of lift slide by bearing part Face, it is connected cooperation with hanging knife rest.