CN205414760U - Line cutting device is drawn to fixed multiaspect of frame - Google Patents

Abstract

The utility model discloses a line cutting device is drawn to fixed multiaspect of frame. Including frame and working head, be connected with ring gear and ring rail in the frame, the last rotation of ring rail is connected with the revolving platform, is equipped with revolving platform drive arrangement between revolving platform and the ring gear, installs tangential feed device on the revolving platform, and radial feeding device is installed to the last axial feed device of installing of tangential feed device on the axial feed device, and the working head sets up on radial feeding device, the work piece passes in can following ring rail, and the revolving platform can rotate around the work piece. The utility model discloses when being faced a plurality of faces by the shaped steel processed and all will carry out spot facing work or marking off, cutting, can be on an equipment, once accomplish a plurality of marking off, cutting process, and need not to carry out manual work upset with shaped steel, the number of working processes is short, production efficiency is high, with low costs, easy operation, the operating personnel of needs is few, uses manpower sparingly, and the security is good, degree of automation is high, the machining precision is high to realized online processing, the management is convenient.

Description

Frame fixed multi-surface marking-out cutter

Technical field

This utility model relates to shaped steel technical field of processing equipment, particularly relates to a kind of not only have line function but also have the marking-out cutter of cutting function.

Background technology

Shaped steel is a kind of bar structural section having certain section shape and size, can be divided into H profile steel, I-steel, channel-section steel, square steel, rectangular steel pipe, square steel tube etc. by its cross sectional shape.Shaped steel is widely used in all conglomeraties such as industrial building, lathe, electricity transmission iron tower, multi-storied garage, vehicle, boats and ships.

1, when constituting various steel construction, need on shaped steel to process various types of hole by the position of design defined, to be connected with other corresponding constructions, complete certain function, at present, domestic existing shaped steel process equipment, based on boring production line, is respectively equipped with feed channel and discharging channel before and after boring main frame, and feed channel is provided with the feeding trolley of tape clamp and boring main frame is carried out feeding.

2, additionally, shaped steel not only plays supporting role in various steel constructions, must also combine with adjacent members, this is accomplished by shaped steel in a pre-installation, must mark by the active line of design as markings on its surface, in order to be welded to connect plate by markings, conveniently with adjacent Component composition, or welding motor mounting plate etc., in order to install the related components such as motor, bearing block.The chalker of prior art includes machinery line, sandblasting line, powder marking etc., and the cardinal principle of machinery line is under certain pressure intensity, rules by force with tip.Sandblasting line is by compressed gas and abrasive blasting, abrasive material to inject directly on the surface of workpiece with high accuracy to form the scribble method of groove or the like.Powder marking is to use powder marking gun, rifle is built with metal powders such as zinc powders, during work, metal powder formation jet is sprayed by dust distributor, and be sprayed on workpiece after the flame region of mouthpiece of dusting becomes half melting state, if making to maintain between powder marking gun and workpiece relative motion, canescence lines clearly just can be formed on workpiece.

3, in the processing to shaped steel in addition to carrying out hole machined, the side of shaped steel sometimes also needs to carry out cutting processing, such as the H profile steel used in multi-storied garage, needs the wing plate to H profile steel to carry out part cutting to avoid chain.Mostly the removing method used in prior art is die-cut or cutting of rolling off the production line, its cutting mode is frequently with following two mode: a kind of mode is to push away clamping device with side shaped steel is pressed against the side in material road, the mode manually utilizing cutting machine to cut is used to cut, the shortcoming of this kind of method is, machining accuracy is low, production efficiency is low, lavishes labor on resource etc.；Another way is, shaped steel is moved from material road and cuts to special cutting device, although this method machining accuracy improves, but owing to workpiece needs to move from material road to cut to special cutting device, re-move the most again to material road, greatly reduce production efficiency.Shaped steel is rule and also has above-mentioned Similar Problems.Die-cut or the cutting processing that rolls off the production line and scribing operation not only result in the reduction of working (machining) efficiency and also bring managerial inconvenience.

4, in most of the cases, multiple faces of shaped steel will carry out hole machined or line, cutting, and existing equipment cannot once complete line, the cutting processing of multiple, it is therefore desirable to is overturn by processed shaped steel, owing to shaped steel volume, weight are the biggest, therefore relatively difficult when upset, and the most employing manual type overturns shaped steel, needs to operate with crane, not only inefficiency, operate loaded down with trivial details, and the operator that need are many, poor stability, also it is prone to accidents.

State Intellectual Property Office in disclosed in 27 days March in 2013 by Chen little Jiao, Zhu Xiurong, Lu's design such as how brave grade, Patent No. 201220556661.9, the utility model patent of entitled a kind of cutting on line device, including material road and the conveying roll shaft being arranged on material road, side pushes away clamping device, described side pushes away clamping device and includes being arranged at the side shield of side, described material road, it is arranged at the side push cylinder of described material road opposite side, connect on the piston rod of side push cylinder and have side push pedal, the side being provided with side shield in described material road is provided with support and controls device, longitudinal feeding device is installed on support, vertical feed arrangement is installed on longitudinal feeding device, on vertical feed arrangement, cross feed device is installed, cutting machine is installed on cross feed device.Although being capable of cutting on line, but it is only capable of to workpiece face and realizes cutting processing.Carry out cutting on line if desired for the multiple faces on workpiece, can only increase and overlap cutter sweep more.

Summary of the invention

The purpose of this utility model be to provide a kind of easy to operate, automaticity is high, machining accuracy is high, the number of working processes is short, production efficiency is high, low cost, be capable of the frame fixed multi-surface marking-out cutter of on-line machining.

This utility model be the technical scheme is that for achieving the above object

A kind of frame fixed multi-surface marking-out cutter, including frame and work head, it is characterized in that: connecting in described frame has gear ring and ring-shaped guide rail, rotary table it is rotatably connected on ring-shaped guide rail, it is provided with rotary table driving means between rotary table and gear ring, rotary table is provided with tangential-feed attachment, tangential-feed attachment is provided with axial feed device, being provided with radial feeding device on axial feed device, described work head is arranged on radial feeding device；Workpiece can pass from ring-shaped guide rail, and rotary table can rotate around workpiece.

In order to realize frame fixed multi-surface marking-out cutter at tangential precise motion, this utility model is provided with tangential-feed attachment, and described tangential-feed attachment includes the guide rail A being arranged on rotary table, tangential slide unit and the tangential driving means driving tangential slide unit to slide along guide rail A.

Further, described tangential driving means includes servomotor A and lead screw pair A, and described tangential slide unit is connected with the servomotor A being fixed on rotary table by lead screw pair A, and tangential slide unit can slide by two guide rail A along rotary table.

Further, described tangential driving means can also be cylinder A, and the rod end of cylinder A is connected with described tangential slide unit, and tangential slide unit can slide by two guide rail A along rotary table.

In order to realize cutting machine precise motion on workpiece direct of travel, this utility model is provided with axial feed device, and described axial feed device includes the axial drive means that the guide rail C being arranged on tangential slide unit, axial slide unit and driving axial slide unit slide along guide rail C.

Further, described axial drive means includes servomotor C and lead screw pair C, and described axial slide unit is connected with the servomotor C being fixed on tangential slide unit by lead screw pair C, and axial slide unit can tangentially two guide rail C slips on slide unit.

Further, described axial drive means is cylinder C, and the rod end of cylinder C is connected with described axial slide unit, and axial slide unit can tangentially slide by two guide rail C on slide unit.

In order to realize frame fixed multi-surface marking-out cutter at precise motion radially, this utility model is provided with radial feeding device, and described radial feeding device includes the guide rail B being arranged on axial slide unit, radially slide unit and drives the radial drive that radially slide unit slides along guide rail B.

Further, described radial drive includes servo motor B and lead screw pair B, and described radial direction slide unit is connected with the servo motor B being fixed on axial slide unit by lead screw pair B, and radially slide unit can two guide rail B slips on slide unit vertically；Described work head is connected on radial direction slide unit.

Further, described radial drive is can be with cylinder B, and the rod end of cylinder B is connected with described radial direction slide unit, and radially slide unit can slide by two guide rail B on slide unit vertically.

In this utility model, described rotary table is rotatably connected on ring-shaped guide rail by the first guide wheel group and the second guide wheel group；

The first described guide wheel group includes:

Roller shaft one, is fixed on rotary table, is positioned at the inner side of ring-shaped guide rail inner ring；

Roller shaft two, is fixed on rotary table, is positioned at the outside of ring-shaped guide rail outer ring；

All being rotatably connected to roller on above-mentioned roller shaft one, roller shaft two, the outer rim of roller is provided with groove；

The above-mentioned roller on roller shaft one can the inner ring of annularly guide rail rotate, the roller on roller shaft two can the outer ring rotating of annularly guide rail, ring-shaped guide rail is held on the roller on roller shaft one and between the roller on roller shaft two.

The second described guide wheel group is identical with the first guide wheel group structure, and the second guide wheel group and the first guide wheel group are respectively arranged at the two ends of rotary table.

In this utility model, described rotary table driving means includes:

Servomotor D, is fixed on rotary table；

Gear, is connected on servomotor D, is meshed with gear ring.

In this utility model, between described rotary table and ring-shaped guide rail, it is provided with rotary table positioner, including:

Positioning cylinder, is fixed on rotary table；

Locating shaft, is connected with the piston rod rod end of positioning cylinder；

Hole, location, corresponding to locating shaft, be arranged on ring-shaped guide rail.

Circumferentially, the location quantity in hole, position are corresponding with the machined surface of workpiece to be machined for described hole, location annularly guide rail.

According to processing needs, described work head can be plasma cutting gun or powder marking gun or flame cutter or mechanical chalker.

The beneficial effects of the utility model:

Use this utility model housing slide formula multiaspect marking-out cutter, processed shaped steel face multiple face will carry out hole machined or line, cutting time, can once complete line, the cutting processing of multiple, and without processed shaped steel is manually overturn, not only the number of working processes is short, production efficiency is high, low cost, and simple to operate, and the operator of needs are few, saving manpower, safety is good；Line, cutting processing on multiple of workpiece all complete on an equipment, and automaticity is high, machining accuracy is high, and achieves on-line machining, convenient management.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of this utility model frame fixed multi-surface marking-out cutter.

Fig. 2 is the front elevational schematic after this utility model frame fixed multi-surface marking-out cutter removes frame, gear ring, ring-shaped guide rail.

Fig. 3 is the schematic side view after this utility model frame fixed multi-surface marking-out cutter removes frame, gear ring, ring-shaped guide rail.

Straight line that when Fig. 4 is that in this utility model, only the servomotor in tangential-feed attachment rotates, work head draws on workpiece or the schematic diagram of otch cut out.

Straight line that when Fig. 5 is that in this utility model, only the servomotor in axial feed device rotates, work head draws on workpiece or the schematic diagram of otch cut out.

When Fig. 6 is the servomotor in tangential-feed attachment and the servomotor simultaneously or successively action in axial feed device in this utility model, work head cuts out the schematic diagram of the otch of broken line shape on workpiece.

Broken line that when Fig. 7 is the servomotor simultaneously or successively action in this utility model in the servomotor in tangential-feed attachment and axial feed device, work head draws on workpiece, oblique line, curve, polygon or cut out the schematic diagram of otch of above-mentioned shape.

In figure: 1-frame, 2-gear ring, 3-ring-shaped guide rail,

4-rotary table, 401-the first guide wheel group, 402-the second guide wheel group, 4011-roller shaft one, 4012-roller shaft two, 4013-roller,

5-tangential-feed attachment, 501-servomotor A, the 502-tangential slide unit of ball screw assembly, A, 503-, 504-guide rail A, 505-slide block A, 506-bearing block AA, 507-bearing block AB,

6-radial feeding device, 601-servo motor B, 602-lead screw pair B, 603-radially slide unit, 604-guide rail B,

7-works head,

8-rotary table positioner, 801-positioning cylinder, 802-locating shaft, 803-positions hole,

9-rotary table driving means, 901-servomotor D, 902-gear,

10-axial feed device, 1001-servomotor C, 1002-lead screw pair C, the axial slide unit of 1003-, 1004-guide rail C, 1005-slide block C,

11 workpiece.

Detailed description of the invention

For the technical characterstic of this programme can be clearly described, below by detailed description of the invention, and combine accompanying drawing, this utility model is described further.

Embodiment one:

See Fig. 1, a kind of frame fixed multi-surface marking-out cutter, including frame 1 and work 7, connect in frame 1 and have gear ring 2 and ring-shaped guide rail 3, ring-shaped guide rail 3 is rotatably connected to rotary table 4, between rotary table 4 and gear ring 2, is provided with rotary table driving means 8, tangential-feed attachment 5 is installed on rotary table 4, being provided with axial feed device 10 on tangential-feed attachment 5, axial feed device 10 is provided with radial feeding device 6, described work 7 is arranged on radial feeding device 6；Workpiece can pass from ring-shaped guide rail 3, and rotary table 4 can rotate around workpiece.

Seeing Fig. 2, Fig. 3, described tangential-feed attachment 5 includes the guide rail A504 being arranged on rotary table 4, tangential slide unit 503 and the tangential driving means driving tangential slide unit 503 to slide along guide rail A504.

The slide block A505 suitable with guide rail A504 is installed on described tangential slide unit 503；Described tangential driving means includes servomotor A501 and the ball screw assembly, A502 driven by servomotor A501, and the nut of ball screw assembly, A502 is arranged on tangential slide unit 503；Described servomotor A501 is installed on rotary table 4, the output shaft of servomotor A501 is connected with one end of ball screw assembly, A502, the two ends of ball screw assembly, A502 are rotatably connected on bearing block AA506 and bearing block AB507 by a deep groove ball bearing and pair of horns contact bearing respectively, bearing block AA506 and bearing block AB507 is arranged on rotary table 4, and the guide rail A504 that two be arranged in parallel is arranged in the both sides of ball screw assembly, A502.

Described axial feed device 10 includes the axial drive means that the guide rail C1004, axial slide unit 1003 and the driving axial slide unit 1003 that are arranged on tangential slide unit 503 slide along guide rail C1004.

The slide block C1005 suitable with guide rail C1004 is installed on described axial slide unit 1003；Described axial drive means includes servomotor C1001 and lead screw pair C1002, described axial slide unit 1003 is connected with the servomotor C1001 being fixed on tangential slide unit 503 by lead screw pair C1002, and axial slide unit 1003 can tangentially two guide rail C1004 slips on slide unit 503.The structure of axial drive means is essentially identical with tangential driving means, repeats no more.

Seeing Fig. 2 to Fig. 3, described radial feeding device 6 includes the guide rail B604 being arranged on axial slide unit 1003, radially slide unit 603 and drives the radial drive that radially slide unit 603 slides along guide rail B604.

The slide block B suitable with guide rail B604 is installed on described radial direction slide unit 603；Described radial drive includes servo motor B 601 and lead screw pair B602, described radial direction slide unit 603 is connected with the servo motor B 601 being fixed on axial slide unit 1003 by lead screw pair B602, radially slide unit 603 can slide by two guide rail B604 on slide unit 1003 vertically, the structure of radial drive is essentially identical with tangential driving means, repeats no more；Described work 7 is connected on radial direction slide unit 603.

Seeing Fig. 2 to Fig. 3, described rotary table 4 is rotatably connected on ring-shaped guide rail 3 by the first guide wheel group 401 and the second guide wheel group 402；

The first described guide wheel group 401 includes:

Roller shaft 1, is fixed on rotary table 4, is positioned at the inner side of ring-shaped guide rail 3 inner ring；

Roller shaft 2 4012, is fixed on rotary table 4, is positioned at the outside of ring-shaped guide rail 3 outer ring；

All being rotatably connected to roller 4013 on above-mentioned roller shaft 1, roller shaft 2 4012, the outer rim of roller 4013 is provided with groove；

The above-mentioned roller 4013 on roller shaft 1 can annularly guide rail 3 inner ring rotate, roller 4013 on roller shaft 2 4012 can the outer ring rotating of annularly guide rail 3, between the roller 4013 on the roller 4013 that ring-shaped guide rail 3 is held on roller shaft 1 and roller shaft 2 4012.

The second described guide wheel group 402 is identical with the first guide wheel group 401 structure, and the second guide wheel group 402 and the first guide wheel group 401 are respectively arranged at the two ends of rotary table 4.

All studding with rolling bearing on described roller shaft 1, roller shaft 2 4012, described roller 4013 is connected on the shell of rolling bearing by endoporus thereon；Roller shaft 1, roller shaft 2 4012 are provided with the shaft shoulder and circlip one, axially position rolling bearing；The endoporus of roller 4013 is provided with boss, and roller shaft 1, roller shaft 2 4012 are provided with circlip two, and pair roller 4013 axially positions.

Seeing Fig. 3, described rotary table driving means 9 includes:

Servomotor D901, is fixed on rotary table 4, and the output shaft of servomotor D901 stretches out in the through hole from rotary table 4；

Gear 902, is connected on servomotor D901 output shaft, is meshed with gear ring 2.

See Fig. 1, Fig. 3, between described rotary table 4 and ring-shaped guide rail 3, be provided with rotary table positioner 8, including:

Positioning cylinder 801, is fixed on rotary table 4, and the piston rod of positioning cylinder 801 stretches out in the through hole from rotary table 4；

Locating shaft 802, is connected with the piston rod rod end of positioning cylinder 801；

Hole 803, location, corresponding to locating shaft 802, be arranged on ring-shaped guide rail 3.

Seeing Fig. 1, circumferentially, the location quantity in hole 803, position are corresponding with the machined surface of workpiece to be machined for described hole 803, location annularly guide rail 3.For example, if workpiece to be machined is square tube, channel-section steel, H profile steel, I-steel, then its machined surface can be set as 4, and annularly the circumference of guide rail 3 is correspondingly arranged hole 803,4 location, hole, respectively 0 ° location, hole ,-90 ° of location, hole ,+90 ° of location and hole ,+180 ° of location respectively.

Described work 7 is plasma cutting gun or powder marking gun or flame cutter or machinery chalker.

The work process of the present embodiment is as follows:

Being installed in shaped steel machining production line by housing slide formula multiaspect marking-out cutter of the present utility model, housing slide formula multiaspect marking-out cutter front portion is provided with feed channel, rear portion is provided with discharging channel,

1, workpiece 11 on the conveying roll shaft in material road axially movable, arrive behind operating position, workpiece 11 stops, and workpiece 11 is clamped by Workpiece clamping device；

2, control device and read processor, the servomotor D901 being driven back to turntable 4 is made to rotate, the gear 902 linked together with the output shaft of servomotor D901 rotates along gear ring 2 the most therewith, drive rotary table 4 rotates along ring-shaped guide rail 3 and around workpiece 11, and work 7 is turned to be processed the corresponding position with workpiece 11；

3, the piston rod of positioning cylinder 801 stretches out, and is inserted in the hole, location 803 being positioned on ring-shaped guide rail 3 by the locating shaft 802 being fixed on tailpiece of the piston rod；With workpiece to be machined 11 as square tube, as a example by channel-section steel, H profile steel, I-steel, its machined surface can be set as 4, annularly the circumference of guide rail 3 is correspondingly arranged on hole 803,4 location, hole, respectively 0 ° location, hole ,-90 ° of location, hole ,+90 ° of location and hole ,+180 ° of location respectively；

4, the servo motor B 601 in radial feeding device 6 rotates, the leading screw also concomitant rotation linked together with the output shaft of servo motor B 601, for linear motion along guide rail B604 with the radial direction slide unit 603 that the screw on leading screw links together, work 7 being moved to workpiece 11 apart from suitable position, work 7 divides following three kinds of working methods according to the setting-out on workpiece 11 or split requirement:

The only servomotor A501 in tangential-feed attachment 5 rotates, the leading screw also concomitant rotation linked together with the output shaft of servomotor A501, for linear motion along guide rail A504 with the tangential slide unit 503 that the screw on leading screw links together, work 7 can draw the straight line of and the axis perpendicular of workpiece 11 on workpiece 11 or cut out an otch, sees Fig. 4；

The only servomotor C1001 in axial feed device 10 rotates, the leading screw also concomitant rotation linked together with the output shaft of servomotor C1001, for linear motion along guide rail C1004 with the axial slide unit 1003 that the screw on leading screw links together, work 7 can draw a straight line paralleled with the axis of workpiece 11 on workpiece 11 or cut out an otch, sees Fig. 5；

Servomotor A501 in the tangential-feed attachment 5 and servomotor C1001 in axial feed device 10 is simultaneously or successively according to the requirement action of processor, work 7 then can be made to move according to desired trajectory, work 7 can draw broken line, oblique line, curve, polygon or cut out the otch of above-mentioned shape on workpiece 11 surface, sees Fig. 6, Fig. 7.

Embodiment two:

A kind of frame fixed multi-surface marking-out cutter, including frame 1 and work 7, connect in frame 1 and have gear ring 2 and ring-shaped guide rail 3, rotary table 4 it is rotatably connected on ring-shaped guide rail 3, it is provided with rotary table driving means 8 between rotary table 4 and gear ring 2, rotary table 4 is provided with tangential-feed attachment 5, tangential-feed attachment 5 is provided with axial feed device 10, being provided with radial feeding device 6 on axial feed device 10, described work 7 is arranged on radial feeding device 6；Workpiece can pass from ring-shaped guide rail 3, and rotary table 4 can rotate around workpiece.

Described tangential-feed attachment 5 includes the guide rail A504 being arranged on rotary table 4, tangential slide unit 503 and the tangential driving means driving tangential slide unit 503 to slide along guide rail A504.

Described tangential driving means is the cylinder A being fixed on rotary table 4, the rod end of cylinder A is connected with described tangential slide unit 503, tangential slide unit 503 can slide by two guide rail A504 along rotary table 4, and the guide rail A504 that two be arranged in parallel is arranged in the both sides of cylinder A.

Described axial feed device 10 includes the axial drive means that the guide rail C1004, axial slide unit 1003 and the driving axial slide unit that are arranged on tangential slide unit 503 slide along guide rail C1004.

The slide block C1005 suitable with guide rail C1004 is installed on described axial slide unit 1003；Described axial drive means is the cylinder C being fixed on tangential slide unit 503, and the rod end of cylinder C is connected with described axial slide unit 1003, and axial slide unit 1003 can tangentially slide by two guide rail C1004 on slide unit 503.

Described radial feeding device 6 includes the guide rail B604 being arranged on axial slide unit 1003, radially slide unit 603 and drives the radial drive that radially slide unit 603 slides along guide rail B604.

Described radial drive is the cylinder B being fixed on axial slide unit 1003, the rod end of cylinder B is connected with described radial direction slide unit 603, radially slide unit 603 can slide by two guide rail B604 on slide unit 1003 vertically, and the guide rail B604 that two be arranged in parallel is arranged in the both sides of cylinder B.

Remaining mechanism is with embodiment one.

Claims (15)

1. a frame fixed multi-surface marking-out cutter, including frame and work head, it is characterized in that: connecting in described frame has gear ring and ring-shaped guide rail, rotary table it is rotatably connected on ring-shaped guide rail, it is provided with rotary table driving means between rotary table and gear ring, rotary table is provided with tangential-feed attachment, tangential-feed attachment is provided with axial feed device, being provided with radial feeding device on axial feed device, described work head is arranged on radial feeding device；Workpiece can pass from ring-shaped guide rail, and rotary table can rotate around workpiece.

Frame fixed multi-surface marking-out cutter the most according to claim 1, it is characterised in that: described tangential-feed attachment includes the guide rail A being arranged on rotary table, tangential slide unit and the tangential driving means driving tangential slide unit to slide along guide rail A.

Frame fixed multi-surface marking-out cutter the most according to claim 2, it is characterized in that: described tangential driving means includes servomotor A and lead screw pair A, described tangential slide unit is connected with the servomotor A being fixed on rotary table by lead screw pair A, and tangential slide unit can slide by two guide rail A along rotary table.

Frame fixed multi-surface marking-out cutter the most according to claim 2, it is characterised in that: described tangential driving means is cylinder A, and the rod end of cylinder A is connected with described tangential slide unit, and tangential slide unit can slide by two guide rail A along rotary table.

Frame fixed multi-surface marking-out cutter the most according to claim 1, it is characterised in that: described axial feed device includes the axial drive means that the guide rail C being arranged on tangential slide unit, axial slide unit and driving axial slide unit slide along guide rail C.

Frame fixed multi-surface marking-out cutter the most according to claim 5, it is characterized in that: described axial drive means includes servomotor C and lead screw pair C, described axial slide unit is connected with the servomotor C being fixed on tangential slide unit by lead screw pair C, and axial slide unit can tangentially two guide rail C slips on slide unit.

Frame fixed multi-surface marking-out cutter the most according to claim 5, it is characterised in that: described axial drive means is cylinder C, and the rod end of cylinder C is connected with described axial slide unit, and axial slide unit can tangentially slide by two guide rail C on slide unit.

Frame fixed multi-surface marking-out cutter the most according to claim 1, it is characterised in that: described radial feeding device includes the guide rail B being arranged on axial slide unit, radially slide unit and drives the radial drive that radially slide unit slides along guide rail B.

Frame fixed multi-surface marking-out cutter the most according to claim 8, it is characterized in that: described radial drive includes servo motor B and lead screw pair B, described radial direction slide unit is connected with the servo motor B being fixed on axial slide unit by lead screw pair B, and radially slide unit can two guide rail B slips on slide unit vertically；Described work head is connected on radial direction slide unit.

Frame fixed multi-surface marking-out cutter the most according to claim 8, it is characterised in that: described radial drive is cylinder B, and the rod end of cylinder B is connected with described radial direction slide unit, and radially slide unit can slide by two guide rail B on slide unit vertically.

11. frame fixed multi-surface marking-out cutters according to claim 1, it is characterised in that: described rotary table is rotatably connected on ring-shaped guide rail by the first guide wheel group and the second guide wheel group；

The first described guide wheel group includes:

Roller shaft one, is fixed on rotary table, is positioned at the inner side of ring-shaped guide rail inner ring；

Roller shaft two, is fixed on rotary table, is positioned at the outside of ring-shaped guide rail outer ring；

All being rotatably connected to roller on above-mentioned roller shaft one, roller shaft two, the outer rim of roller is provided with groove；

The above-mentioned roller on roller shaft one can the inner ring of annularly guide rail rotate, the roller on roller shaft two can the outer ring rotating of annularly guide rail, ring-shaped guide rail is held on the roller on roller shaft one and between the roller on roller shaft two；

The second described guide wheel group is identical with the first guide wheel group structure, and the second guide wheel group and the first guide wheel group are respectively arranged at the two ends of rotary table.

12. frame fixed multi-surface marking-out cutters according to claim 1, it is characterised in that: described rotary table driving means includes:

Servomotor D, is fixed on rotary table；

Gear, is connected on servomotor D, is meshed with gear ring.

13. frame fixed multi-surface marking-out cutters according to claim 1, it is characterised in that: it is provided with rotary table positioner between described rotary table and ring-shaped guide rail, including:

Positioning cylinder, is fixed on rotary table；

Locating shaft, is connected with the piston rod rod end of positioning cylinder；

Hole, location, corresponding to locating shaft, be arranged on ring-shaped guide rail.

14. frame fixed multi-surface marking-out cutters according to claim 13, it is characterised in that: circumferentially, the location quantity in hole, position are corresponding with the machined surface of workpiece to be machined for described hole, location annularly guide rail.

15. frame fixed multi-surface marking-out cutters according to claim 1, it is characterised in that: described work head is plasma cutting gun or powder marking gun or flame cutter or machinery chalker.