CN107756174A - Numerical control beveler - Google Patents

Abstract

The present invention relates to a kind of numerical control beveler, with numerical control body, numerical control body is provided with least 1 chamfer angle edging working cell controlled by numerically controlled control system, each chamfer angle edging working cell includes chamfer grinding head, X axles horizontal motion pair, Y axle movement in vertical direction pairs, and chamfer grinding head is controlled by numerically controlled control system and carries out circular curve motion using X axles horizontal motion is secondary, Y axles movement in vertical direction is secondary.Chamfer angle edging working cell includes Z axle vertical direction kinematic pairs, and chamfer grinding head utilizes the upper and lower motion of Z axle vertical direction kinematic pairs by numerically controlled control system control.Each chamfer angle edging working cell can carry out chamfering work to the edge of plate of material automatically under numerically controlled control system control.Each chamfer angle edging working cell can realize two axles or three-shaft linkage, can accurately and efficiently realize chamfer machining to product, and processing work efficiency is higher.

Description

Numerical control beveler

Technical field

The present invention relates to numerical controlled machinery processing technique field, especially a kind of numerical control beveler.

Background technology

With the development of society, people are to the precision of product and the requirement more and more higher of outward appearance, for some plate of material such as

Glass plate, stone material etc., the requirement to its edge is higher, and the requirement to the chamfer angle edging of its edge surrounding is also higher, at present Mill

Side process equipment it is conventional be two-sided grinding, i.e., edging processing is carried out to square or rectangular plate of material both sides, to its four Zhou Wu

Method carries out rounding and fillet edging, and increased chamfering abrasive wheel is also only capable of grinding the fillet of a very little, nothing in addition Method expires

The processing request of any fillet of foot.Another CNC abnormity edging machining center is mainly for special shape such as irregular roundness Shape

Plate of material, mostly an edging shaping, need specific edging mould, input cost is larger, less efficient.

The content of the invention

The technical problem to be solved in the present invention is：Overcome the deficiencies in the prior art, there is provided a kind of numerical control beveler, can be right

Multiple edges of plate of material carry out chamfering or chamfer angle edging, and cost is smaller, and efficiency is higher.

The technical solution adopted for the present invention to solve the technical problems is：A kind of numerical control beveler, there is numerical control body, Institute

The numerical control body stated is provided with least 1 chamfer angle edging working cell controlled by numerically controlled control system, each chamfering mill Bian Gong

Making unit includes that chamfer grinding head, X axles horizontal motion be secondary, Y axle movement in vertical direction pairs, described chamfer grinding head by Numerical control

Control system control carries out circular curve motion using X axles horizontal motion is secondary, Y axles movement in vertical direction is secondary.

Further, described chamfer angle edging working cell includes Z axle vertical direction kinematic pairs, described chamfer grinding head

The upper and lower motion of Z axle vertical direction kinematic pairs is utilized by numerically controlled control system control.

Further, the chamfer grinding head of described chamfer angle edging working cell is connected relative with Y axles movement in vertical direction pair

Y axles vertical direction moves, and Y axles movement in vertical direction is secondary to be connected relative X axles level side with X axles horizontal motion pair Xiang Yi

It is dynamic.Or the chamfer grinding head of described chamfer angle edging working cell is connected relative X axles with X axles horizontal motion pair It is horizontal

Direction is moved, and X axles horizontal motion is secondary to be moved with secondary be connected of Y axles movement in vertical direction relative to Y axles vertical direction.

Further, described X axles horizontal motion is secondary and/or Y axles movement in vertical direction pair is guideway.

Further, the chamfer grinding head of described chamfer angle edging working cell is connected relatively with Z axle vertical direction kinematic pairs

Z axle vertical directions move up and down, and Z axle vertical direction kinematic pairs hang down with the secondary Y axles relatively that are connected of Y axles movement in vertical direction Nogata to

Mobile, Y axles movement in vertical direction is secondary to be moved with secondary be connected of X axles horizontal motion relative to X axles horizontal direction.

Or the chamfer grinding head of described chamfer angle edging working cell is connected relative Z axles with Z axle vertical direction kinematic pairs

Vertical direction moves up and down, and Z axle vertical direction kinematic pairs are connected relative X axles level side with X axles horizontal motion pair Xiang Yi

Dynamic, X axles horizontal motion is secondary to be moved with secondary be connected of Y axles movement in vertical direction relative to Y axles vertical direction.

Further, described Z axle vertical directions kinematic pair is lead screw pair.

Further, the chamfer angle edging working cell quantity of described numerical control body installation is 2,2 chamfer angle edgings Work

To make unit homonymy to set or be oppositely arranged, one of chamfer angle edging working cell bottom is fixedly connected with numerical control body, It is another

Individual relative chamfer angle edging working cell bottom is connected relative X axle horizontal directions with the 2nd X axles horizontal motion pair It is mobile,

2nd X axles horizontal motion pair is fixedly connected with numerical control body.

Brief description of the drawings

The present invention is further described below in conjunction with the accompanying drawings.

Fig. 1 is the structural representation of the present invention；

Wherein:1. chamfer grinding head, 2.Y axle movement in vertical direction pairs, 3.X axles horizontal motion 4. the 2nd X axle water of pair

Square to kinematic pair.

Embodiment

Presently in connection with accompanying drawing, the present invention is further illustrated.These accompanying drawings are simplified schematic diagram only with signal side

Formula illustrates the basic structure of the present invention, therefore it only shows the composition relevant with the present invention.

As shown in Fig. 1, a kind of numerical control beveler, there is numerical control body, numerical control body, which is provided with 2 and controlled by numerical control, is

The chamfer angle edging working cell of system control, each chamfer angle edging working cell includes chamfer grinding head 1, X axles horizontal direction is transported Dynamic pair

3rd, Y axles movement in vertical direction pair 2, Z axle vertical direction kinematic pairs, chamfer grinding head 1 are controlled by numerically controlled control system and utilized X axles

Horizontal motion pair 3, Y axles movement in vertical direction pair 2 carry out circular curve motion, and chamfer grinding head 1 is controlled by numerical control System

Control utilizes the upper and lower motion of Z axle vertical direction kinematic pairs.

Specifically, the chamfer grinding head 1 of chamfer angle edging working cell is connected with the sliding part of Z axle vertical direction kinematic pairs Phase

Z axle vertical directions are moved up and down, fixture and the Y axle movement in vertical direction pair 2 of Z axle vertical direction kinematic pairs Sliding part

Connection is moved relative to Y axles vertical direction, fixture and the X axle horizontal motion pairs of Y axle movement in vertical direction pair 2 3

Sliding part connection is moved relative to X axles horizontal direction.

The chamfer angle edging working cell quantity of numerical control body installation is 2, and 2 chamfer angle edging working cells are relative to be set Put,

The fixture of the X axle horizontal motions pair 3 of one of chamfer angle edging working cell is fixedly connected with numerical control body, It is another

The fixture of the X axle horizontal motions pair 3 of individual chamfer angle edging working cell bottom and the 2nd X axles horizontal direction are transported Dynamic pair 4

Sliding part connection, the fixture of the 2nd X axle horizontal motions pair 4 is fixedly connected with numerical control body.

Wherein, the secondary 3 and Y axles movement in vertical direction pair 2 of X axles horizontal motion is guideway.Z axle vertical directions Fortune

Dynamic pair is lead screw pair.The sliding part of Z axle vertical direction kinematic pairs is the sliding nut in lead screw pair, Z axle vertical directions Kinematic pair

Fixture be leading screw fixed part in lead screw pair, the sliding part of Y axle movement in vertical direction pair 2 is in guideway Sliding block,

The fixture of Y axle movement in vertical direction pair 2 is the guide rail in guideway, the sliding part of X axle horizontal motions pair 3 That is guide rail

Sliding block in pair, the fixture of X axle horizontal motions pair 3 are the guide rail in guideway.

Claims (1)

1. a kind of numerical control beveler, there is numerical control body, it is characterised in that：Described numerical control body is provided with least 1 by counting The chamfer angle edging working cell of control system control is controlled, each chamfer angle edging working cell includes chamfer grinding head, X axles level side To kinematic pair, Y axle movement in vertical direction pairs, described chamfer grinding head utilizes X axle horizontal directions by numerically controlled control system control Kinematic pair, Y axles movement in vertical direction are secondary to carry out circular curve motion.