CN107127644A - The face processing equipment of high-speed full-automatic numerical control five - Google Patents

Abstract

The invention discloses a kind of face processing equipment of high-speed full-automatic numerical control five, it is related to timber field of mechanical technique, solves repeatedly to change cutter and multiple clamping workpiece the need in the prior art existing, make the technical problem of machining accuracy and inefficiency.The face processing equipment of high-speed full-automatic numerical control five of the present invention includes frame and toolbox, due to the first cutter head in toolbox, the cutting direction of second cutter head and the 3rd cutter head is mutually perpendicular to, the cutting direction of i.e. three cutter heads may make up a rectangular coordinate system in space, therefore tool changing, which need not be carried out, can disposably complete the processing to five faces of workpiece, the man-hour of substantial amounts of replacing cutter can be saved, in addition, because the position of toolbox can be moved, therefore after a face of processing finished piece(s), toolbox, which only need to be moved, to be processed to another face, without upset workpiece, therefore avoiding needs the process of multiple clamping workpiece in traditional processing method, greatly improve the precision of processing.

Description

The face processing equipment of high-speed full-automatic numerical control five

Technical field

The present invention relates to timber field of mechanical technique, a kind of particularly face processing equipment of high-speed full-automatic numerical control five.

Background technology

Existing Numerical-control Milling Machines, due to the limitation of cutter structure and installation way, under conditions of once mounting, Three directions can only be at most processed simultaneously, i.e., two sides and surface of workpiece (sheet material) can only be processed, if multiple faces of workpiece It is required to be processed, then after the processing (punching) in necessary three directions to be done, re-replaces cutter and weighed workpiece New clamping, or change other processing methods；Either change cutter, clamping workpiece or change processing method, can The benchmark of processing is changed, cause that the machining accuracy particularly accuracy of form and position is not high, processing range is not wide, its quality processed It is not high with efficiency, it greatly limit the use of numerical control mill.

The content of the invention

The present invention provides a kind of face processing equipment of high-speed full-automatic numerical control five, for solving the need for existing in the prior art Cutter and multiple clamping workpiece are repeatedly changed, makes the technical problem of machining accuracy and inefficiency.

The present invention provides a kind of face processing equipment of high-speed full-automatic numerical control five, including frame and is slidably arranged in described The toolbox of machine frame inside；

The toolbox is including for processing the first cutter head of workpiece top surface or bottom surface and for processing side surface of workpiece The second cutter head and the 3rd cutter head, the cutting direction of first cutter head, the cutting direction of second cutter head and described The cutting direction of three cutter heads is mutually perpendicular to.

In one embodiment, the L-shaped distribution of first cutter head, second cutter head and the 3rd cutter head difference Positioned at the both sides of first cutter head.

In one embodiment, second cutter head includes left cutter head and right cutter head, the cutting direction of the left cutter head It is located along the same line with the cutting direction of the right cutter head and the direction of feed of the two is opposite.

In one embodiment, the 3rd cutter head includes preceding cutter head and rear blade, the cutting direction of the preceding cutter head It is located along the same line with the cutting direction of the preceding cutter head and the direction of feed of the two is opposite.

In one embodiment, the toolbox also includes Mobile base and is slidably arranged in the Mobile base respectively On first base of tool, second base of tool and the 3rd base of tool；

First cutter head is arranged on first base of tool, and first base of tool is used for edge and moved perpendicular to described The direction movement of seat；

Second cutter head is arranged on second base of tool, and second base of tool is used for edge and moved perpendicular to described The direction movement of seat；

3rd cutter head is arranged on the 3rd base of tool, and the 3rd base of tool is used for edge and moved perpendicular to described The direction movement of seat.

In one embodiment, the toolbox also includes driver element, and the driver element includes moving with described Dynamic the first connected cylinder of seat and the second gas being connected respectively with first base of tool, second base of tool and the 3rd base of tool Cylinder component.

In one embodiment, oil nozzle for adding lubricating oil is additionally provided with the Mobile base and for collecting The scrap collecting groove of cutting swarf.

In one embodiment, the frame includes cover body, and the cover body is internally provided with operating desk, the cover body Outside be provided with control panel；

The bottom of the operating desk is provided with slide rail, and the bottom of the toolbox is provided with sliding block, and the sliding block is set In on the slide rail.

In one embodiment, it is provided with the operating desk for the Anchor plate kit of workpiece pressing and for moving The transfer assembly of workpiece.

In one embodiment, the Anchor plate kit includes the flat board being slidably arranged on the operating desk, described flat Multiple directional wheels are evenly distributed with plate.

Compared with prior art, the advantage of the invention is that：Due to the first cutter head in toolbox, the second cutter head and The cutting direction of three cutter heads is mutually perpendicular to, i.e., the cutting direction of three cutter heads may make up a rectangular coordinate system in space, therefore nothing Tool changing, which need to be carried out, can disposably complete the processing to five faces of workpiece, can save the man-hour of substantial amounts of replacing cutter, make The efficiency of processing is greatly improved；Further, since the position of toolbox can be moved, therefore in a face of processing finished piece(s) After, only need to move toolbox can be processed to another face, without upset workpiece, therefore avoid traditional add The process of multiple clamping workpiece is needed in work method, the precision of processing is greatly improved.

Brief description of the drawings

The invention will be described in more detail below based on embodiments and refering to the accompanying drawings.

Fig. 1 is the stereochemical structure schematic views of the face processing equipment of high-speed full-automatic numerical control five in embodiments of the invention；

Fig. 2 is the internal structure schematic views of the face processing equipment of high-speed full-automatic numerical control five in embodiments of the invention (cover body not shown in figure)；

Fig. 3 is the dimensional structure diagram of the toolbox in embodiments of the invention.

In the accompanying drawings, identical part uses identical reference.Accompanying drawing is not drawn according to actual ratio.

Reference：

1- frames；2- toolboxs；3- driver elements；

11- cover bodies；12- operating desks；13- control panels；

14- Anchor plate kits；15- transfer assemblies；The cutter heads of 21- first；

The cutter heads of 22- second；The cutter heads of 23- the 3rd；24- Mobile bases；

The base of tools of 25- first；The base of tools of 25- second；The base of tools of 27- the 3rd；

28- oil nozzles；29- scrap collecting grooves；141- flat boards；

142- directional wheels；The left cutter heads of 221-；The right cutter heads of 222-；

Cutter head before 231-；232- rear blades.

Embodiment

Below in conjunction with accompanying drawing, the invention will be further described.

As shown in figure 1, the present invention provides a kind of face processing equipment of high-speed full-automatic numerical control five, including frame 1 and setting Toolbox 2 inside frame 1.Because the equipment is mainly used in processing sheet material, including it is top surface (or bottom surface) to sheet material, preceding Side and trailing flank, left surface and right flank, which amount to five faces and punched or slotted etc., to be operated, therefore the toolbox 2 is main It is that above-mentioned five faces for being directed to sheet material are processed, therefore is " five face processing equipments ".

Toolbox 2 can disposably complete the processing to above-mentioned five faces, you can with carry out upright opening, side opening, cutting, The processing technologys such as kerve, sawing, deburring.The process for changing cutter is not only eliminated, and workpiece only need to be moved planar It is dynamic, and workpiece need to be overturn, therefore the quality and efficiency of its processing are all greatly improved.

In addition, frame 1 uses aluminum alloy frame posture structure, it is possible to increase equipment integral rigidity, allow toolbox 2 high Fast (45m/min) speed of service, to improve efficiency.

Specifically, toolbox 2 includes being used to process the first cutter head 21 of workpiece top surface (or bottom surface) and for adding Second cutter head 22 of work side surface of workpiece and the 3rd cutter head 23, the cutting direction of the first cutter head 21, the cutting direction of the second cutter head 22 And the 3rd the cutting direction of cutter head 23 be mutually perpendicular to.

For example, the cutting direction (i.e. axis direction) of the first cutter head 21 is vertically, the cutting direction of the second cutter head 22 (i.e. axis direction) in the horizontal direction, the cutting direction (i.e. axis direction) of the 3rd cutter head 23 along the longitudinal direction, i.e., three cutter heads Axis may make up a rectangular coordinate system in space.

Wherein, the quantity of the first cutter head 21, the second cutter head 22 and the 3rd cutter head 23 is two or more.As schemed Shown in 3, the quantity of the first cutter head 21 is 12, and the quantity of the second cutter head 22 is 2, and the quantity of the 3rd cutter head 23 is 8, specifically The quantity of cutter can be selected as needed, do not provide herein.

Due to being usually to be slotted or punched to sheet fabrication, therefore the first cutter head 21 can use drill bit, it is preferable that the One cutter head 21 selects diamond bit, and it has higher hardness and wearability.It is further preferred that the first cutter head 21 can use people Make composite polycrystal-diamond (PDC) to be made, it had both had high rigidity, high-wearing feature and the thermal conductivity of diamond, have again hard The intensity and toughness of matter alloy.

In addition, the drill bit of different-diameter can be respectively adopted in 12 the first cutter heads 21, you can the hole for processing different-diameter, Therefore in process, without changing cutter, it is only necessary to the work shape of the first cutter head 21 of diameter needed for being selected by controller State, can not only save the substantial amounts of time, can also reduce due to the mismachining tolerance that tool changing is caused, and improve the matter of processing Amount.Second cutter head 22 is similar therewith with the 3rd cutter head 23, will not be repeated here.

Further, the L-shaped distribution of the first cutter head 21, the second cutter head 22 and the 3rd cutter head 23 are located at the first cutter head 21 respectively Both sides.As shown in figure 3,12 the first cutter heads 21 are arranged according to 6 into a row, 6 modes in a row, each first The rotation of cutter head 21 has independent motor to be controlled.

In addition, the first cutter head 21 T-shaped can also be distributed or groined type distribution, i.e.,：First cutter head 21 workpiece top surface (or Bottom surface) institute planar, (horizontal direction) and Y-direction (longitudinal direction) are distributed in X direction, so as to process workpiece this two Hole (or groove) on individual direction.

Second cutter head 22 and the 3rd cutter head 23 are located at the both sides of the first cutter head 21 respectively, as shown in figure 3, the second cutter head 22 In the right side of first cutter head of row 21, to process the left surface and right flank of workpiece；3rd cutter head 23 is located at the knife of row first First 21 left side, to process the leading flank and trailing flank of workpiece.

Further, the second cutter head 22 includes left cutter head 221 and right cutter head 222, the cutting direction and right knife of left cutter head 221 First 222 cutting direction is located along the same line and the direction of feed of the two is opposite.As shown in figure 3, working as needs to process work respectively When the left surface and right flank of part, completed by left cutter head 221 after the processing to left surface, only need to be by cutter head assembly 2 along close The direction movement of right flank, until the right flank of the right alignment pieces of cutter head 222, in the process, i.e., without travelling workpiece, Without rotation blade, it is ensured that the efficiency and precision of processing.

Similarly, the 3rd cutter head 23 includes preceding cutter head 231 and rear blade 232, the cutting direction and preceding cutter head of preceding cutter head 231 242 cutting direction is located along the same line and the direction of feed of the two is opposite.

In addition, toolbox 2 also includes Mobile base 24 and first base of tool being slidably arranged in respectively on Mobile base 24 25th, second base of tool 26 and the 3rd base of tool 27.

Wherein, the first cutter head 21 is arranged on first base of tool 25, and first base of tool 25 is used for along perpendicular to Mobile base 24 Direction movement；Second cutter head 22 is arranged on second base of tool 26, and second base of tool 26 is used for along perpendicular to Mobile base 24 Move in direction；3rd cutter head 23 is arranged on the 3rd base of tool 27, and the 3rd base of tool 27 is used for along perpendicular to the side of Mobile base 24 To movement.

As shown in figure 3, Mobile base 24 can integrally be moved with cutter, for example, move up or move horizontally, that is, lead to Cross the amount of feeding that Mobile base 24 can control each cutter.In addition, in order to avoid interference, when cutter is in off working state, its In the corresponding base of tool；When cutter is in running order, it stretches out from the corresponding base of tool along its axis direction.

Illustrated by taking the first cutter head 21 as an example.When that need not be processed to the top surface (or bottom surface) of workpiece, first Cutter head 21 is respectively positioned on the inside of corresponding first base of tool 25, so just will not be with the second cutter head 22 and the 3rd when processing side Cutter head 23 is interfered；When needing the top surface (or bottom surface) to bow and arrow to be processed, the first cutter head 21 of respective diameters is from right Stretched out in first base of tool 25 answered, each first cutter head 21 stretches out or retracted to be entered in first base of tool 25 by corresponding cylinder Row control；In addition, can also select the quantity of the first cutter head 21 stretched into as needed, 3 the first cutter heads 21 are such as selected, then i.e. 3 holes (or groove) can be disposably processed, substantial amounts of machining period can be saved.

Second cutter head 22 is similar therewith with the 3rd cutter head 23, will not be repeated here.

In addition, as shown in figure 3, first base of tool 25 is cylindric, its axis is overlapped with the axis of the first cutter head 21；Second The base of tool 27 of the base of tool 26 and the 3rd is cuboid, and in order to increase the quantity of the second cutter 22 and the 3rd cutter 23, Interface portion is provided with two base of tools 26 and the 3rd base of tool 27, for being laminated multiple cutters, as shown in Figure 3, the 3rd knife Has the stepped construction that seat 27 is two layers, can make the quantity of the 3rd cutter 23 increases by 2 on the basis of original.

Toolbox 2 also includes driver element 3, and driver element 3 includes the first cylinder being connected with Mobile base 24 and divided The second cylinder assembly not being connected with first base of tool 25, second base of tool 26 and the 3rd base of tool 27.First cylinder is used to drive Dynamic Mobile base 24 is moved, and it controls the amount of feeding of each cutter respectively；Second base of tool 25, second base of tool 26 and the 3rd knife Have seat 27 mobile corresponding cylinder is controlled in the second cylinder assembly respectively.

Further, oil nozzle 28 for adding lubricating oil is additionally provided with Mobile base 24 and for collecting cutting swarf Scrap collecting groove 29.

In addition, the surrounding of Mobile base 24 is provided with hairbrush, hairbrush is located at the edge of Mobile base 24, for blocking cutting Bits.

As shown in figure 1, frame 1 includes cover body 11, being internally provided with outside operating desk 12, cover body 11 for cover body 11 is set There is control panel 13, the ginseng such as the speed of service, running orbit and amount of feeding of toolbox 2 can be set by control panel 13 Number.

The bottom of operating desk 12 is provided with slide rail, and the bottom of toolbox 2 is provided with sliding block, and sliding block is arranged on slide rail. The bearing of trend of such as slide rail is identical with the axis direction of the 3rd cutter head 23, and toolbox 2 is can control along cunning by power set Rail enters line slip, so that each cutter head reaches corresponding Working position.

In addition, being provided with the Anchor plate kit 14 for workpiece pressing on operating desk 12.

Further, as shown in Fig. 2 Anchor plate kit 14 includes the flat board 141 being slidably arranged on operating desk 12, flat board Multiple directional wheels 142 are evenly distributed with 141, directional wheel 142 can play a part of positioning, to ensure the precision of processing, in addition Also the surface of workpiece can be protected not to be scratched, it is ensured that there is good surface quality after processing.

The transfer assembly 15 for travelling workpiece is additionally provided with operating desk 12.Transmission group can control by control panel 13 Part 15 is translated to workpiece, is provided with transfer assembly 15 automatically by gear positioner, is applicable to different width dimensions The positioning of workpiece.

Edge detecting device is additionally provided with operating desk 12, it is capable of the edge of automatic detection plank, so as to be missed to putting plate Difference is compensated, and makes machining accuracy higher.

Although by reference to preferred embodiment, invention has been described, is not departing from the situation of the scope of the present invention Under, various improvement can be carried out to it and part therein can be replaced with equivalent.Especially, as long as in the absence of structure punching Prominent, the every technical characteristic being previously mentioned in each embodiment can combine in any way.The invention is not limited in text Disclosed in specific embodiment, but all technical schemes including falling within the scope of the appended claims.

Claims (10)

1. a kind of face processing equipment of high-speed full-automatic numerical control five, it is characterised in that including frame (1) and be slidably arranged in institute State the internal toolbox (2) of frame (1)；

The toolbox (2) is including for processing the first cutter head (21) of workpiece top surface or bottom surface and for processing workpiece side Second cutter head (22) and the 3rd cutter head (23) in face, the cutting direction of first cutter head (21), second cutter head (22) Cutting direction and the cutting direction of the 3rd cutter head (23) are mutually perpendicular to.

2. the face processing equipment of high-speed full-automatic numerical control five according to claim 1, it is characterised in that first cutter head (21) L-shaped distribution, second cutter head (22) and the 3rd cutter head (23) are located at the two of first cutter head (21) respectively Side.

3. the face processing equipment of high-speed full-automatic numerical control five according to claim 1 or 2, it is characterised in that second knife Head (22) includes left cutter head (221) and right cutter head (222), the cutting direction and the right cutter head (222) of the left cutter head (221) Cutting direction be located along the same line and the direction of feed of the two is opposite.

4. the face processing equipment of high-speed full-automatic numerical control five according to claim 1 or 2, it is characterised in that the 3rd knife Head (23) includes preceding cutter head (231) and rear blade (232), the cutting direction and the preceding cutter head (242) of the preceding cutter head (231) Cutting direction be located along the same line and the direction of feed of the two is opposite.

5. the face processing equipment of high-speed full-automatic numerical control five according to claim 1 or 2, it is characterised in that the cutter group Part (2) also includes Mobile base (24) and first base of tool (25) being slidably arranged in respectively on the Mobile base (24), second The base of tool (26) and the 3rd base of tool (27)；

First cutter head (21) is arranged on first base of tool (25), first base of tool (25) be used for along perpendicular to The direction movement of the Mobile base (24)；

Second cutter head (22) is arranged on second base of tool (26), second base of tool (26) be used for along perpendicular to The direction movement of the Mobile base (24)；

3rd cutter head (23) is arranged on the 3rd base of tool (27), the 3rd base of tool (27) be used for along perpendicular to The direction movement of the Mobile base (24).

6. the face processing equipment of high-speed full-automatic numerical control five according to claim 5, it is characterised in that the toolbox (2) driver element (3) is also included, the driver element (3) includes the first cylinder being connected with the Mobile base (24) and divided The second cylinder assembly not being connected with first base of tool (25), second base of tool (26) and the 3rd base of tool (27).

7. the face processing equipment of high-speed full-automatic numerical control five according to claim 5, it is characterised in that the Mobile base (24) On be additionally provided with the oil nozzle (28) for adding lubricating oil and the scrap collecting groove (29) for collecting cutting swarf.

8. the face processing equipment of high-speed full-automatic numerical control five according to claim 5, it is characterised in that frame (1) bag Include cover body (11), the cover body (11) is internally provided with operating desk (12), and the outside of the cover body (11) is provided with chain of command Plate (13)；

The bottom of the operating desk (12) is provided with slide rail, and the bottom of the toolbox (2) is provided with sliding block, and the sliding block is set It is placed on the slide rail.

9. the face processing equipment of high-speed full-automatic numerical control five according to claim 8, it is characterised in that the operating desk (12) On be provided with the Anchor plate kit (14) for workpiece pressing and the transfer assembly (15) for travelling workpiece.

10. the face processing equipment of high-speed full-automatic numerical control five according to claim 9, it is characterised in that the Anchor plate kit (14) including the flat board (141) being slidably arranged on the operating desk (12), it is multiple fixed to be evenly distributed with the flat board (141) To wheel (142).