CN204036079U - Aircraft wing titanium alloy thin wall web HECNCM special fixture - Google Patents

Abstract

Aircraft wing titanium alloy thin wall web HECNCM special fixture, comprise landing slab, landing slab is provided with connecting hole, landing slab is provided with gripper shoe, gripper shoe surrounding is located by connecting respectively by the connecting hole on a fast locking pin and landing slab, gripper shoe is evenly provided with supplemental support block, gripper shoe is provided with the locating piece being positioned at all supplemental support block outsides, locating piece is provided with two parallel lower elongated holes, the fastening bolt for being fixedly connected with gripper shoe by locating piece is equipped with in lower elongated hole, each locating piece is equipped with a dowel hole, locating piece is provided with screw rod, screw rod is equipped with pressing plate, pressing plate is provided with for the upper elongated hole through screw rod, screw flight is connected with the nut of clamping platen, locating piece is provided with carrying bolt, carrying bolt upper end contacts with pressing plate lower surface.The utility model adopts flexible design, and use a sleeve clamp to realize the processing of all positions of web, accurate positioning, versatility is good, greatly reduces the manufacturing cost of part.

Description

Aircraft wing titanium alloy thin wall web HECNCM special fixture

Technical field

The utility model belongs to Machining Technology field, particularly relates to a kind of aircraft wing titanium alloy thin wall web HECNCM special fixture.

Background technology

Titanium alloy specific strength is high, and intensity is close to ordinary steel, and density is 4.5g/cm ³; Calorific intensity is high, and 450 ~ 500 DEG C of intensity still keep very high; Corrosion stability is good, and in the air and seawater of humidity, corrosion stability is better than stainless steel; Chemism is large, and O, N in processing easily and in air form hardened layer; Thermal conductivity factor is little, only has 1/5 of iron, and cutting region temperature is high; Elastic modelling quantity is little, and during cutting, resilience is large, comparatively serious to wear of the tool flank.

Aircraft wing component must possess the ability of enough intensity, rigidity and antifatigue, resists the distortion that various interior external applied load causes, to ensure aerodynamically-shaped accuracy.The weight of component also should be made the lightest simultaneously.The primary structure member of wing mainly contains longitudinal framework, horizontal skeleton, covering and joint; thin-wall web plate is the major part of skeleton; the shearing of whole skeleton bears primarily of web; how to be manufactured by titanium alloy; section is " work mostly " font, "T"-shaped or "] " shape, along with the increase that spar bearing capacity requires, high speed warplane commonly uses web made in one piece.

At present, restriction titanium alloy thin wall web highly-efficient processing objective condition mainly contains: (1) titanium alloy material poor thermal conductivity, and most heat in metal cutting can not be taken away by chip, and the temperature of tool nose point is high, because resilience cutter wear of the tool flank is serious; (2) titanium alloy highly-efficient processing is also great challenge to the rigidity of process system.

Aircaft configuration integration and thin-walled property design more and more extensive use, and this brings great challenge too to the technological design of titanium alloy highly-efficient processing.The value of titanium alloy product is expensive, and technical flow design risk control status must be brought up on a new level and study.

Utility model content

The utility model, in order to solve weak point of the prior art, provides that a kind of process is unstressed, good stability, the aircraft wing titanium alloy thin wall web HECNCM special fixture that not yielding, machining accuracy is high, efficiency is high.

For solving the problems of the technologies described above, the utility model adopts following technical scheme: aircraft wing titanium alloy thin wall web HECNCM special fixture, comprise landing slab, landing slab is provided with connecting hole, landing slab is provided with gripper shoe, gripper shoe surrounding is located by connecting respectively by the connecting hole on a fast locking pin and landing slab, gripper shoe is evenly provided with several supplemental support blocks for support webs, gripper shoe is provided with the locating piece being positioned at all supplemental support block outsides, supplemental support block is provided with the jack be connected with gripper shoe, the latch inserted on the supporting plate is provided with in jack, locating piece is provided with two parallel lower elongated holes, the fastening bolt for being fixedly connected with gripper shoe by locating piece is equipped with in lower elongated hole, each locating piece is equipped with a dowel hole, locating piece is provided with screw rod, screw rod is equipped with pressing plate, pressing plate is provided with for the upper elongated hole through screw rod, upper elongated hole is parallel with lower elongated hole, screw flight is connected with the nut of clamping platen, locating piece is provided with carrying bolt, carrying bolt upper end contacts with pressing plate lower surface.

Described locating piece is provided with altogether eight, described locating piece is respectively equipped with one at gripper shoe front and rear, on the left of gripper shoe and right side be respectively equipped with three, three locating pieces in left side are positioned on same circular arc, three locating pieces on right side are positioned on same circular arc, and three locating pieces in left side and three locating pieces on right side are about the line symmetry between anterior locating piece and rear portion locating piece.

Adopt technique scheme, aircraft wing titanium alloy thin wall web HECNCM technique, comprises the following steps:

(1), blanking;

(2), process web outline, process for locator tabs;

(3), clamping web, processing web front die cavity;

(4), webbed side wall is processed:

(5), web rapid translating, the die cavity of processing web reverse side and webbed side wall;

(6), locator tabs is milled;

(7), quality inspection.

Described step (1) is specially, and adopts material trademark to be the sheet material of Ti-6Al-4V, uses cutting machine to be rectangle by sheet material, carries out annealing, room-temperature mechanical property σ _b=895MPa, the allowance of blank size bilateral increase 2mm on the basis of web profile design size.

Described step (2) specifically comprises the following steps,

Six faces of A, machining sheet: use universal fixturing to be clamped on CNC milling machine by web, using six of rectangle sheet material faces all as machined surface, ensure adjacent surface perpendicularity 0.1 after processing, the opposite face depth of parallelism 0.1, adopt major diameter tungsten cobalt (YG) series hard alloy face milling cutters, cutting plate for milling cutters adopts little anterior angle, large relief angle, point of a knife adopts Circular Nose Cutting Edge, feed engagement 0.5mm, cutting depth 1.5mm, radial cutting width is less than 1/3 of tool diameter; Cutting speed 50m/min;

B, the processing outline of web and locator tabs: with sheet material bottom surface and two adjacent side for locating surface, use briquetting by sheet material end face and lateral surface compressing on the workbench of CNC milling machine; First carry out roughing, roughing tool is tungsten cobalt (YG) class one-piece auger slotting cutter, profile cut speed 47m/min, feed engagement 0.057mm, and radial cutting width is less than or equal to 1/3 of tool diameter, and cutting depth equals 0.5 ~ 1 times of tool diameter; Carry out fine finishining again, the same roughing of fine finishining outline cutter material, profile cut speed 68m/min, feed engagement 0.045mm, radial cutting width is 1mm, and cutting depth equals 1 ~ 2 times of tool diameter; After processing locator tabs, locator tabs is holed, drill bit is monoblock type carbide drill, diameter 11.8mm, feed of every rotation 0.15mm, cutting speed 25 m/min; The finishing tool in hole is solid carbide reamer, cutting speed 15 m/min, feed engagement 0.05 ~ 0.1mm.

Described step (3) specifically comprises the following steps,

(A), outside Digit Control Machine Tool, the web of band locator tabs is placed in gripper shoe, web is placed on supplemental support block, locating piece and locator tabs one_to_one corresponding are arranged, dowel hole on locating piece and being connected by straight pin and rhombus finger setting between the hole in locator tabs, calibration web, inside pressing plate, lower surface is pressed on locator tabs upper surface; Then driving is used to be lifted on Digit Control Machine Tool by landing slab, to numerical control working origin centering;

(B), namely the processing of web refer to process the bottom surface of die cavity, and thickness finally processed by web is 4mm, and the thick 4mm of webbed side wall, stays allowance 1mm, the cutter adopted is W-Co kind one-piece auger slotting cutter, wherein the deformation effect of shear blade to web of cutter is maximum, take minimum cutting force as target, determine that shear blade anterior angle is 13 °, relief angle is 17 °, helical angle is 36 °, under interlayer, cutter adopts the milling of spiral slope, lower cutter point is at web symmetrical center positions, tool track design is from cutter ring cutting center, the graphics shape that the shape of ring surrounds with cavity lateral, i.e. reprocessing surrounding in the middle of first processing, ensure that cutter is adding man-hour, by downward responsive to axial force, web is made to have downtrend, web can not be taken up, contribute to improving part rigidity, improve Part Surface Roughness, cutting speed 28 m/min, feed engagement 0.03 ~ 0.05mm, cutting depth is less than or equal to 0.5 times of tool diameter, milling direction is with the milling of climb cutting mode.

Described step (4) specifically comprises the following steps,

(A), corner arc machining: on the corner leave larger allowance after the pocket machining of web, corner arc machining selects the carbide alloy entirety of the same size with Element Design corner to plug in milling cutter, compound motion is made along tool axis, its cutting speed 35 ~ 40 m/min, feed engagement 0.04mm, the sword that cutting width is no more than blade is long;

(B), machining is carried out along webbed side wall one circle: adopt fine grain hard alloy monoblock type milling cutter, tool diameter 10mm, Milling Speed 70m/min, feed of every rotation 0.24mm, roughing radial cutting width 1 ~ 3mm, fine finishining chipping allowance is not less than 0.1mm.

Described step (5) specifically comprises the following steps,

After web upper surface machines, by clamp loose, take out web straight up, web is overturn 180 °, use straight pin or rhombus pin to be connected locating piece and locator tabs again, complete frock replacing, without the need to the working origin of the arbitrary part thereafter of centering again, then directly carry out digital control processing, manufacturing procedure is identical with step (4) with (B) step in step (3).

Described step (6) is specially, select the wherein hole location of any two distances relatively far and not in collinear two locator tabs, use pressing plate to compress this two locator tabs, mill other auricle, finally change press plate position, mill two auricles of location.

Described step (7) is specially,

(A), to deflection detect: first part is placed on test flat plate, move dial gauge along profile full-size direction, measure its deflection;

(B), the die cavity physical dimension of web is detected: part is placed on three-coordinates measuring machine workbench, detects with three-coordinates measuring machine.

Above-mentioned processing technology, has following technique effect:

(1) when, blank (sheet material) designs in web outer rim Distribution and localization auricle at a certain distance, first locator tabs carries out fine finishining to locator tabs upper and lower surface and hole before the digital control processing of web cavity, in follow-up processing, this some holes and face namely can before processing as correction references, also can be used as clamping face, make Workpiece fixing stable, reliable, unified;

(2), the utility model adopts flexible design.Because abdomen plate parts is all two-sided die cavity, need to process at multiple station, if each station designs a sleeve clamp, greatly can improve fixture expense; Clamp bottom board is pressed part locator tabs Position Design locating piece, and a sleeve clamp so just can be made to realize the processing of all positions of part, accurate positioning, and versatility is good, greatly reduces the manufacturing cost of part;

(3), roughing tool track design: from cutter ring cutting the center of each little near closed hollow ring during the design of digital control processing tool track, the graphics shape that the shape of ring surrounds with cavity lateral, and first reprocessing surrounding in the middle of processing, can ensure that cutter is adding man-hour like this, by downward responsive to axial force, make web have downtrend, web can not be taken up, contribute to improving part rigidity, improve Part Surface Roughness;

(4), semifinishing corner inserts milling technology.Adopt tool diameter comparatively large during roughing, cause, to finishing tool on the corner surplus increasing, if do not processed, negative effect to be caused to finishing tool service life and part quality.Adopt and insert milling, cutter is vertically moved continuously, efficiently surplus is removed, because the radial load of inserting Milling Machining is less, so just likely use more elongated cutter, and keep higher material cutting speed, for the processing that the cutter cantilevered length of these difficult-to-machine materials of titanium alloy is larger, its working (machining) efficiency far away higher than the layer Milling Process of routine, and makes fine finishining chipping allowance even, avoids cutter on the corner jack knife and fall cutter problem;

(5), titanium alloy is shallow cuts roughing feed High Efficient Machining Technology.This technology has adapted to the not enough problem of a lot of lathe rigidity, and working (machining) efficiency is significantly promoted; In process, cutting force reduces further, thermal deformation in processing is relatively little, decrease intermediate heat-treatment correcting process, the appearance profile tolerance of outer profile size 3750 × 160 × 160 (mm) controls, within ± 0.3mm, to reduce production cycle and processing cost.

(6), Quick universal technology.The HECNCM technique of titanium alloy thin wall web adopts Quick universal technology to make, and clamping is on average consuming time accounts for overall 26% and be reduced to 1%, the clamping time takies Digit Control Machine Tool rate and reduces 25%, repetitive positioning accuracy reaches ± 0.013mm, thus increases substantially Digit Control Machine Tool working (machining) efficiency.

In sum, adopting web processing technology of the present utility model by providing a kind of rigidity taking locator tabs as machining benchmark and flexible Special Clamps Design scheme and improve manufacturing process system, realizing unstressed processing; Secondly, by optimal design tool track, improve the stability of process, improve process velocity; Again, adopt that titanium alloy is shallow cuts big-feed milling technological parameter, reduce the thermal deformation in processing, cancel correcting process, improve metal removal rate 30% ~ 50%, finally significantly improve its working (machining) efficiency; Finally, adopt Quick universal technology significantly to shorten the clamping time of workpiece, and guarantee the repetitive positioning accuracy of clamping, thus increase substantially Digit Control Machine Tool working (machining) efficiency.

Accompanying drawing explanation

Fig. 1 is the planar structure schematic diagram of the thin-wall web plate of band locator tabs;

Fig. 2 is the structural representation that thin-wall web plate is clamped on the utility model;

Fig. 3 is A-A sectional view in Fig. 2;

Fig. 4 is B-B sectional view in Fig. 2;

The schematic diagram of tool track when Fig. 5 is roughing thin-wall web plate die cavity;

Fig. 6 is the schematic diagram of corner circular arc on thin-wall web plate;

Fig. 7 is the enlarged drawing at C place in Fig. 6;

Fig. 8 is the schematic diagram that in Fig. 7, corner circular arc inserts milling tool track after expansion at A;

Fig. 9 is floor map of the present utility model.

Detailed description of the invention

As Fig. 2, Fig. 3, shown in Fig. 4 and Fig. 9, aircraft wing titanium alloy thin wall web HECNCM special fixture, comprise landing slab 5, landing slab 5 is provided with connecting hole 6, connecting hole 6 arranges several, connecting hole 6 is for being fixed on Digit Control Machine Tool by landing slab 5, landing slab 5 is provided with gripper shoe 7, gripper shoe 7 surrounding is located by connecting respectively by a fast locking pin 8 and the connecting hole 6 on landing slab 5, gripper shoe 7 is evenly provided with several supplemental support blocks 9 for support webs 1, gripper shoe 7 is provided with locating piece 10, supplemental support block 9 is provided with the jack be connected with gripper shoe, the latch inserted on the supporting plate is provided with in jack, locating piece 10 is provided with two parallel lower elongated holes 14, the fastening bolt 20 for being fixedly connected with gripper shoe 7 by locating piece 10 is equipped with in lower elongated hole 14, each locating piece 10 is equipped with a dowel hole, locating piece 10 is provided with screw rod 15, screw rod 15 is equipped with pressing plate 16, pressing plate 16 is provided with for the upper elongated hole 21 through screw rod 15, upper elongated hole 21 is parallel with lower elongated hole 14, screw rod 15 is threaded the nut 17 of clamping platen 16, locating piece 10 is provided with carrying bolt 18, carrying bolt 18 upper end contacts with pressing plate 16 lower surface.

Locating piece 10 is provided with altogether eight, described locating piece 10 is respectively equipped with one at gripper shoe front and rear, on the left of gripper shoe and right side be respectively equipped with three, three locating pieces 10 in left side are positioned on same circular arc, three locating pieces 10 on right side are positioned on same circular arc, and three locating pieces 10 in left side and three locating pieces 10 on right side are about the line symmetry between anterior locating piece 10 and rear portion locating piece 10.

As shown in Fig. 1 ~ Fig. 9, adopt aircraft wing titanium alloy thin wall web HECNCM technique of the present utility model, comprise the following steps:

(1), blanking;

(2), process web 1 outline, process for locator tabs 2;

(3), clamping web 1, processing web 1 front die cavity 3;

(4), webbed side wall 4 is processed:

(5), web 1 rapid translating, the die cavity 3 of processing web 1 reverse side and webbed side wall 4;

(6) locator tabs 2, is milled;

(7), quality inspection.

Described step (1) is specially, and adopts material trademark to be the sheet material of Ti-6Al-4V, uses cutting machine to be rectangle by sheet material, carries out annealing, room-temperature mechanical property σ _b=895MPa, the allowance of blank size bilateral increase 2mm on the basis of web 1 configuration design size.

Described step (2) specifically comprises the following steps,

Six faces of A, machining sheet: use universal fixturing to be clamped on CNC milling machine by web 1, using six of rectangle sheet material faces all as machined surface, ensure adjacent surface perpendicularity 0.1 after processing, the opposite face depth of parallelism 0.1, adopt major diameter tungsten cobalt (YG) series hard alloy face milling cutters, cutting plate for milling cutters adopts little anterior angle, large relief angle, point of a knife adopts Circular Nose Cutting Edge, feed engagement 0.5mm, cutting depth 1.5mm, radial cutting width is less than 1/3 of tool diameter; Cutting speed 50m/min;

B, the processing outline of web 1 and locator tabs 2: with sheet material bottom surface and two adjacent side for locating surface, use briquetting by sheet material end face and lateral surface compressing on the workbench of CNC milling machine; First carry out roughing, roughing tool is tungsten cobalt (YG) class one-piece auger slotting cutter, profile cut speed 47m/min, feed engagement 0.057mm, and radial cutting width is less than or equal to 1/3 of tool diameter, and cutting depth equals 0.5 ~ 1 times of tool diameter; Carry out fine finishining again, the same roughing of fine finishining outline cutter material, profile cut speed 68m/min, feed engagement 0.045mm, radial cutting width is 1mm, and cutting depth equals 1 ~ 2 times of tool diameter; After processing locator tabs 2, locator tabs 2 is holed, drill bit is monoblock type carbide drill, diameter 11.8mm, feed of every rotation 0.15mm, cutting speed 25 m/min; The finishing tool in hole is solid carbide reamer, cutting speed 15 m/min, feed engagement 0.05 ~ 0.1mm.

Before web 1 digital control processing die cavity 3, first fine finishining is carried out to locator tabs 2 upper and lower surface and hole, because thin-wall web plate 1 is all two-sided die cavity 3, prevent machining deformation from being critical technological point, before the processing of follow-up die cavity 3, namely locator tabs 2 can be used as web 1 clamping face, can, using the plane of locator tabs 2 and hole as clamping centering benchmark, by flatness and position, the hole centering workpiece of dial gauge measurement and positioning auricle 2, Workpiece fixing can be made stable, reliable, unified again.

Described step (3) specifically comprises the following steps,

(A), outside Digit Control Machine Tool, the web 1 of band locator tabs 2 is placed in gripper shoe 7, web 1 is placed on supplemental support block 9, locating piece 10 and locator tabs 2 one_to_one corresponding are arranged, be located by connecting by straight pin 12 and rhombus pin 13 between locating piece 10 and locator tabs 2, calibration web 1, inside pressing plate 16, lower surface is pressed on locator tabs 2 upper surface; Then driving is used to be lifted on Digit Control Machine Tool by landing slab 5, to numerical control working origin centering;

(B), namely the processing of web 1 refer to process the bottom surface of die cavity 3, and web 1 finally processing thickness is 4mm, and the thick 4mm of webbed side wall 4, stays allowance 1mm, the cutter adopted is W-Co kind one-piece auger slotting cutter, wherein the deformation effect of shear blade to web 1 of cutter is maximum, take minimum cutting force as target, determine that shear blade anterior angle is 13 °, relief angle is 17 °, helical angle is 36 °, under interlayer, cutter adopts the milling of spiral slope, lower cutter point is at web 1 symmetrical center positions, tool track design is from cutter ring cutting center, the graphics shape that the shape of ring surrounds with die cavity 3 sidewall, arrow points as shown in Figure 5, i.e. reprocessing surrounding in the middle of first processing, ensure that cutter is adding man-hour, by downward responsive to axial force, web 1 is made to have downtrend, web 1 can not be taken up, contribute to improving part rigidity, improve Part Surface Roughness, cutting speed 28 m/min, feed engagement 0.03 ~ 0.05mm, cutting depth is less than or equal to 0.5 times of tool diameter, milling direction is with the milling of climb cutting mode.

In the clamping process of location, according to holes one side principle using span thin-wall web plate 1 holes farthest as locating surface, coordinate with locating surface with the locating piece 10 with straight pin 12 and band rhombus pin 13 in Fig. 2; Using the lower plane of locator tabs 2 as locating surface, coordinate with positioning datum with the locating piece 10 in Fig. 2; Auxiliary positioning block 10 is increased more than the position of 300mm or die cavity 3 position when fitting turnover processes another side after processing in span.Because web 1 class part is all two-sided die cavity 3, need to process at multiple station, if each station designs a sleeve clamp, greatly can improve fixture expense.Gripper shoe 7 is pressed part locator tabs 2 Position Design locating piece 10, a sleeve clamp so just can be made to realize the processing of all positions of part, greatly reduce the manufacturing cost of part.

Described step (4) specifically comprises the following steps,

(A), corner circular arc 19 is processed: on the corner leave larger allowance after die cavity 3 processing of web 1, corner circular arc 19 processing selects the carbide alloy entirety of the same size with Element Design corner to plug in milling cutter, compound motion is made along tool axis, its cutting speed 35 ~ 40 m/min, feed engagement 0.04mm, the sword that cutting width is no more than blade is long;

(B), machining is carried out along webbed side wall 4 one circle: adopt fine grain hard alloy monoblock type milling cutter, tool diameter 10mm, Milling Speed 70m/min, feed of every rotation 0.24mm, roughing radial cutting width 1 ~ 3mm, fine finishining chipping allowance is not less than 0.1mm.

Because limiting by tool diameter, after roughing, on the corner surplus is larger, adopt and insert the semifinishing that corner surplus is carried out in milling, cutter is vertically moved continuously, efficiently surplus is removed, and less because inserting the radial load of Milling Machining, so just likely use the cutter that diameter is less, keep higher material cutting speed, make fine finishining chipping allowance even, avoid cutter on the corner jack knife and fall cutter problem.This cutting way has adapted to the not enough problem of a lot of lathe rigidity, and working (machining) efficiency is significantly promoted; In process, cutting force reduces further, and the thermal deformation in processing is relatively little, decreases intermediate heat-treatment correcting process, reduces production cycle and processing cost.As shown in Figure 8, arrow points is for plugging in milling cutter course, and Cutting trajectory is solid line, and withdrawing track is dotted line.

Described step (5) specifically comprises the following steps,

After web 1 upper surface machines, pressing plate 16 is unclamped, take out web 1 straight up, web 1 is overturn 180 °, use straight pin 12 or rhombus pin 13 to be connected locating piece 10 and locator tabs 2 again, complete frock and change, without the need to the working origin of the arbitrary part thereafter of centering again, then directly carry out digital control processing, manufacturing procedure is identical with step (4) with (B) step in step (3).

Described step (6) is specially, select the wherein hole location of any two distances relatively far and not in collinear two locator tabs 2, use pressing plate 16 to compress this two locator tabs 2, mill other auricle, finally change pressing plate 16 position, mill two auricles of location.

Described step (7) is specially,

(A), to deflection detect: first part is placed on test flat plate, move dial gauge along profile full-size direction, measure its deflection;

(B), to die cavity 3 physical dimension of web 1 detect: part is placed on three-coordinates measuring machine workbench, detect with three-coordinates measuring machine (model is ALPH000127).

In addition, if batch machining thin-wall web plate 1, for realizing the target of HECNCM, by the location between fast locking pin 8 implementation platform plate 5 and gripper shoe 7 and Quick-clamped.Its main Quick universal process is: web 1 sheet material is placed in gripper shoe 7 by (1) outside numerical controlled machine-tool, location clamping after calibration workpiece; (2) be fixed on Digit Control Machine Tool by the connecting hole 6 of landing slab 5, complete digital control processing initial point centering; (3) directly start to carry out digital control processing; (4) last machine after, special fixture is dismantled, by with on other a set of gripper shoe 7 of part, supplemental support block 9 and locating piece 10 placement platform plate 5, complete location and clamping, special fixture is changed, directly carry out digital control processing, without the need to the working origin of the arbitrary part thereafter of centering again.(5) after processing the upper surface of this collection of thin-wall web plate 1, processing by the gross to another side, process is identical with above-mentioned steps (1)-(4).

Above embodiment is the unrestricted the technical solution of the utility model in order to explanation only, although be described in detail the utility model with reference to above-described embodiment, those of ordinary skill in the art is to be understood that: still can modify to the utility model or equivalent replacement, and not departing from any modification or partial replacement of spirit and scope of the present utility model, it all should be encompassed in the middle of right of the present utility model.

Claims (2)

1. aircraft wing titanium alloy thin wall web HECNCM special fixture, it is characterized in that: comprise landing slab, landing slab is provided with connecting hole, landing slab is provided with gripper shoe, gripper shoe surrounding is located by connecting respectively by the connecting hole on a fast locking pin and landing slab, gripper shoe is evenly provided with several supplemental support blocks for support webs, gripper shoe is provided with the locating piece being positioned at all supplemental support block outsides, supplemental support block is provided with the jack be connected with gripper shoe, the latch inserted on the supporting plate is provided with in jack, locating piece is provided with two parallel lower elongated holes, the fastening bolt for being fixedly connected with gripper shoe by locating piece is equipped with in lower elongated hole, each locating piece is equipped with a dowel hole, locating piece is provided with screw rod, screw rod is equipped with pressing plate, pressing plate is provided with for the upper elongated hole through screw rod, upper elongated hole is parallel with lower elongated hole, screw flight is connected with the nut of clamping platen, locating piece is provided with carrying bolt, carrying bolt upper end contacts with pressing plate lower surface.

2. aircraft wing titanium alloy thin wall web HECNCM special fixture according to claim 1, it is characterized in that: described locating piece is provided with altogether eight, described locating piece is respectively equipped with one at gripper shoe front and rear, on the left of gripper shoe and right side be respectively equipped with three, three locating pieces in left side are positioned on same circular arc, three locating pieces on right side are positioned on same circular arc, and three locating pieces in left side and three locating pieces on right side are about the line symmetry between anterior locating piece and rear portion locating piece.