CN106643441A - Method used for detecting four-joint guide blade reference arc surface - Google Patents

Abstract

The invention discloses a method used for detecting a four-joint guide blade reference arc surface; the method mainly comprises the following steps: using 6 positioning members to fix a four-joint guide blade on a slide board of a measuring device, and allowing the four-joint guide blade reference theory arc surface to match and be concentric with an arc guide rail surface arc on the measuring board; using an A-direction slide guide adjusting assembly to adjust the slide board in the A direction; using a meter check point of a meter check block fixed on the measuring board as the baseline, and using a dial gauge to measure the center of the arc guide rail surface and the center of the four-joint guide blade reference arc surface; using a B-direction slide guide adjusting assembly to adjust the slide board according to the reference arc surface center deviation direction, allowing the nonconcentricity between the reference arc surface center and the arc guide rail surface center to be in a set value scope, and recording the mobile distance of the slide board in the B direction; adjusting the mobile distance to be smaller than a design value, thus allowing the edge plate reference arc surface of the four-joint guide blade satisfies requirements, otherwise, the four-joint guide blade reference arc surface fails.

Description

Method for detecting tetrad guide vane benchmark arc surface

Technical field

The present invention relates to tetrad guide vane processing technique field, more particularly to tetrad guide vane machining benchmark arc surface Detection technique, and in particular to the method for detecting tetrad guide vane benchmark arc surface.

Background technology

Tetrad guide vane is completed by cast blank part Jing finishing, and process is bad first with tetrad guide vane hair Six original positioning point locations processing big ora terminalis plates of tetrad guide vane, then process leaf on the basis of the arc surface of big ora terminalis plate Other positions of piece.Before other positions of blade are processed on the basis of big ora terminalis plate arc surface, need to the benchmark arc surface Detected, detected the deviation of processed blade listrium arc surface relative theory arc surface, if deviation is in the scope of control Interior, then the arc surface can otherwise cannot function as benchmark, the tetrad guide vane as the benchmark at other positions of processing blade Workpiece is scrapped.The machining accuracy of the big ora terminalis plate arc surface of tetrad guide vane, to tetrad guide vane in engine assembly energy It is no to meet its rigging position requirement and have great significance, also extreme influence is produced to the precision of following process content, therefore it is right The detection of tetrad guide vane benchmark arc surface is extremely important.At present, tetrad guide vane is generally using six originals that blade hair is bad The big ora terminalis plate benchmark arc surface of initial point positioning processing blade, due to six original anchor points difference itself, locating and machining is controlled not Accurately, and listrium circular arc itself the factors such as directionality high-precision requirement, cause the big ora terminalis plate of blade for processing Benchmark arc surface relative theory arc surface often has deviation, it is therefore desirable to the processed benchmark arc surface relative theory of detection The arc surface actual deviation size whether scope received in design drawing.

In existing detection technique, the error of the big listrium benchmark arc surface relative theory arc surface of tetrad guide vane, only Measurement under theory state, the i.e. measurement equivalent to the present invention under double zero-bit latch positioning states, without in A to maximum The measurement result that adjustable value and B are drawn to maximum adjustable value, then rule of thumb judges that tested tetrad is oriented to by individual Whether blade is qualified.So have a problem that：Key is played in the whether abundant qualified judgement to tested blade of personal experience Effect, if once Consideration not comprehensively and measurement operator artificially judges unreasonable to be easy for causing measurement data to assess not Accurately；It is of the invention then can clearly detect separate tested part respectively at A to B to accurate eccentric error, then again with set The allowable tolerance that meter is required is compared, and is as a result used directly to judge that whether qualified tested tetrad guide vane is.

The content of the invention

It is an object of the invention to overcome the deficiencies in the prior art, there is provided the big listrium of one kind detection adjustment tetrad guide vane Benchmark arc surface relative theory arc surface detection method, so that high-quality completes detection, and simplifies detection operation and improves detection Efficiency.

Method provided by the present invention for detecting tetrad guide vane benchmark arc surface, mainly includes the following steps that：

(1) by using guide's detection means measured benchmark arc surface radially with respect to actual difference from A to benchmark Tetrad guide vane, by locating blades leading edge A1, A2 that is fixed on sliding panel and the align member of A3 points, locating blades base The align member of the align member and locating blades blade back C6 points of director circle cambered surface back surface B 4 and B5 points is placed in the cunning of measurement apparatus On dynamic plate, the locating point position of each align member sets according to the anchor point that tetrad guide vane design drawing determines；Measurement The sliding panel and detection plate of device adjusts component by the first zero-bit latch and two A being oppositely arranged to slide-and-guide respectively, Second zero-bit latch and two B being oppositely arranged slidably are oriented to slide-and-guide adjustment component and are adjustably placed in base plate plate face On, make the arc guide rail on the theoretical arc surface of tetrad guide vane benchmark and measurement plate that radian identical is placed on sliding panel The circular arc in face is corresponding and concentric；

(2) the first zero-bit latch of positioning sliding panel is extracted, component is adjusted to sliding panel in A to slide-and-guide using A To adjusting out in the front difference for having measured and having obtained, make the tetrad guide vane benchmark arc surface that is placed on sliding panel be located at A to It is fixed after theoretical position；

(3) amesdial is arranged on and is designed with along the gauge stand by the arc guide rail face moving structure in detection plate, with solid Surely be arranged on the simulation zero-bit in detection plate on table block to table point on the basis of, arc guide rail face is first measured by amesdial Home position, then promotes dial gage base to move along arc guide rail face, and by amesdial tetrad guide vane benchmark circular arc is measured The home position in face；

(4) for the benchmark arc surface center of circle and arc guide rail face center of circle nonconcentricity are not less than setting value, positioning is slided Second zero-bit latch of dynamic plate is extracted, according to benchmark arc surface center of circle opposing arcs guide pass center of circle offset direction, using B to cunning Action-oriented adjust component to sliding panel in B to being adjusted, adjust to making the benchmark arc surface center of circle and the arc guide rail face center of circle Nonconcentricity in range of set value, write down sliding panel B to adjustment displacement, displacement is less than design load, and tetrad is led Meet to the listrium benchmark arc surface of blade and require, otherwise, undesirable, i.e. tetrad guide vane is scrapped.

In the above-mentioned technical proposal of the present invention, after tetrad guide vane is placed on six align members of sliding panel, Logical usual thickness is not more than the contact positioning scenarios that the clearance gauge of setting value checks six align member anchor points, if clearance gauge is logical Cross, readjust positioning states, prevent clearance gauge from by contacting anchor point.The clearance gauge is the clearance gauge of 0.02mm thickness.

In the above-mentioned technical proposal of the present invention, the align member of locating blades leading edge A1, A2 and A3 points is preferentially from logical Cross the align member and locating blades blade back of the alignment pin of cylinder effect positioning, locating blades benchmark arc surface back surface B 4 and B5 points The align member of C6 points is preferentially from the bulb align member that positioning is acted on by sphere.

In the above-mentioned technical proposal of the present invention, the benchmark arc surface center of circle generally sets with arc guide rail face center of circle nonconcentricity Surely it is not more than 0.02mm, when two center of circle nonconcentricity are in 0.02mm scopes, that is, thinks the listrium basic circle of tetrad guide vane Cambered surface meets design requirement.

In the above-mentioned technical proposal of the present invention, sliding panel adjusts component in A to adjustment movement using A to slide-and-guide Ultimate range is 0.508mm, and sliding panel adjusts component and is to the mobile ultimate range of adjustment in B using B to slide-and-guide 1.524mm.I.e. when by two center of circle nonconcentricity adjustment, in 0.02mm scopes, sliding panel is little to the mobile distance of adjustment in A In 0.508mm, 1.524mm is not more than to the mobile distance of adjustment in B, then the big ora terminalis plate benchmark arc surface of tetrad guide vane is expired Foot is required.

The present invention has the advantages that relative to prior art detection means：

1st, detected using detection means of the present invention, detection control direction be divided into both direction and controlled respectively, Being included among the profile tolerance of position compared with the whole of prior art will more rationally, and the position profile tolerance handle of prior art should loosen Detection project significantly adds 1/3rd of tight extremely former requirement, and the manufacture and assembling to part generates very big difficulty.

2nd, using detection means of the present invention, can not only ensure blade benchmark arc surface design requirement, and carry significantly High product percent of pass, by original technology result of determination redefinition, economic benefit highly significant.

3rd, 2 zero-bit latches are designed with detection means of the present invention, in actually used regression theory state very It is convenient, also there is very big use in this device of manufacturing inspection.

Description of the drawings

Accompanying drawing 1 is the detection means dimensional structure diagram for being mounted with tetrad guide vane to be detected.

Accompanying drawing 2-1 is the dimensional structure diagram of tetrad guide vane to be detected；Accompanying drawing 2-2 is tetrad directing vane to be detected Piece it is attached regarding structural representation；Accompanying drawing 2-3 is the left view structural representation of tetrad guide vane to be detected.

Accompanying drawing 3-1 is the main structure diagram of detection means；Accompanying drawing 3-2 is the overlooking the structure diagram of detection means； Accompanying drawing 3-3 is the left view structural representation of detection means.

Accompanying drawing 4-1 is the F partial enlarged drawings in accompanying drawing 3-2；Accompanying drawing 4-2 be in accompanying drawing 4-1 A-A to sectional view.

Accompanying drawing 5 is detects schematic diagram.

The object of each shown by reference numeral mark is respectively in above-mentioned accompanying drawing：1- tetrad guide vanes to be detected, the zero-bits of 2- first Latch, 3- sliding panels, 4-A to slide-and-guide adjusts component, and 5- the second zero-bit latches, 6- detection plates, 7- simulates zero-bit to table block, 8-B to slide-and-guide adjusts component, 9-A1 point location components, 10-A2 point location components, 11-A3 point location components, 12-B4 points Align member, 13-B5 point location components, 14-C6 point location components, 15- base plates, 16- slide-and-guide seats, 17- sliding guide pieces, 18- lead-screws, 19- screw rod fixed seats.For tetrad guide vane design basis face.

Specific embodiment

Below in conjunction with the accompanying drawings explanation provides embodiments of the invention, and the present invention is made further by embodiment It is bright, it is more readily understood that the present invention in order to people.But it is important to note that the specific embodiment of the present invention is not limited In the form described by example below, those skilled in the art, can also be very in the case where creative work is not paid Other specific embodiments are easily designed, therefore the embodiment of specific embodiment given below should not be interpreted as Protection scope of the present invention, by protection scope of the present invention given embodiment is limited in.

Embodiment 1

The method of the detection tetrad guide vane benchmark arc surface of the present embodiment, the detection means device for being used, its knot Structure as shown in Fig. 1, Fig. 3-1, Fig. 3-2, Fig. 3-3, Fig. 4-1 Fig. 4-2, structure such as Fig. 2-1 of the tetrad guide vane for being detected, figure Shown in 2-2 and Fig. 2-3.In the present embodiment, for positioning tetrad guide vane leading edge A1 point location component 9, A2 point location structures Part 10 and A3 point locations component 11 are the alignment pin being fixed on base plate 15, by alignment pin cylinder and tetrad guide vane leading edge Effect positioning；For positioning the point location component 12 of tetrad guide vane benchmark arc surface back surface B 4 and B5 point locations component 13, with And the C6 point locations component 14 for positioning tetrad guide vane blade back is and is fixed on bulb align member on base plate 15, passes through Sphere is propped up by supporting member with tetrad guide vane listrium, blade back effect positioning, the bulb align member with being vertically fixed on Bulb component in support member is constituted.Detection means described in the present embodiment by rectangular configuration base plate 15 and be placed in base plate plate face Go up the sliding panel 3 of the rectangular configuration for being used for disposing tetrad guide vane to be detected, provide mobile arc guide rail face for instrumentation Detection plate 6, for A to slide-and-guide adjust slip Board position A to slide-and-guide adjust component 4 and in B to cunning The B of action-oriented adjustment detection Board position adjusts component 8 to slide-and-guide, and is arranged on the simulation zero-bit in detection plate to table block 7 are constituted；The sliding panel is arranged on base plate with its four edge and the sides aligned parallel of base plate four, and in sliding panel plate face three are designed with The individual A1 point locations pin 9 for positioning tetrad guide vane leading edge respectively, A2 point locations pin 10 and A3 point locations pin 11, two fixed respectively The B4 point bulb align members and B5 point bulb align members of position tetrad guide vane benchmark arc surface, a positioning tetrad is oriented to The C6 point bulb align members of blade blade back, what the position location of each align member determined according to tetrad guide vane design drawing Anchor point A1, A2, A3, B4, B5 and C6 set, and sliding panel is led by the first zero-bit latch 2 and two A being oppositely arranged to slip Slidably it is oriented to adjustment component 4 and is adjustably placed in base plate plate face；The detection plate is to be designed with detector by movement Arc guide rail face, arc guide rail face with as tetrad guide vane benchmark theory arc surface radian it is consistent, detection plate passes through Second zero-bit latch 5 and two B being oppositely arranged slidably are oriented to slide-and-guide adjustment component 8 and are adjustably placed in base plate plate On face, make the arc guide rail face in detection plate corresponding with tetrad guide vane benchmark theory arc surface position, and two circular arcs The center of circle overlaps, in detection plate to tetrad guide vane benchmark theory arc surface is located to table point on table block extended surface On.

The method of the detection tetrad guide vane circular arc benchmark of the present embodiment, comprises the following steps：

(1) by using guide's detection means measured benchmark arc surface radially with respect to actual difference from A to benchmark Tetrad guide vane 1, it is fixed by three of cylinder effect locating blades leading edge A1, A2 and A3 points by being fixed on sliding panel 3 Position pin 9,10,11, by sphere two bulb align members 12,13 of locating blades benchmark arc surface back surface B 4 and B5 points are acted on It is placed on the sliding panel of measurement apparatus with a bulb align member 14 of locating blades blade back C6 points, each align member Locating point position sets according to the anchor point that tetrad guide vane design drawing determines；The sliding panel and detection plate of measurement apparatus point Not Tong Guo the first zero-bit latch 2 and two A being oppositely arranged adjust component 4, the second zero-bit latch 5 and two phases to slide-and-guide B to arranging slidably is oriented to slide-and-guide adjustment component 8 and is adjustably placed in the plate face of base plate 15, pacifies radian identical The tetrad guide vane benchmark theory arc surface put on sliding panel is corresponding with the circular arc in the arc guide rail face in measurement plate and same The heart；It is that 0.02mm clearance gauges check six positioning structures with thickness after tetrad guide vane is placed on six align members of sliding panel The contact positioning scenarios of part anchor point, if clearance gauge passes through, readjust positioning states, prevent clearance gauge from by contacting positioning Point；

(2) the first zero-bit latch of positioning sliding panel is extracted, unclamps A and adjust component to slide-and-guide, using A to slip It is oriented to adjustment component 4 and the difference for obtaining has been measured front to adjusting out in A to sliding panel, leads the tetrad being placed on sliding panel It is fixed to after theoretical position A to be located to blade benchmark arc surface；Sliding panel adjusts component in A to adjustment using A to slide-and-guide Mobile distance is not more than 0.508mm.

(3) amesdial is arranged on and is designed with along the gauge stand by the arc guide rail face moving structure in detection plate, with solid Surely be arranged on the simulation zero-bit in detection plate on table block 7 to table point on the basis of, arc guide rail face is first measured by amesdial Home position, then promote dial gage base along arc guide rail face move, tetrad guide vane basic circle is measured by amesdial The home position of cambered surface；

(4) for the benchmark arc surface center of circle and arc guide rail face center of circle nonconcentricity are not less than setting value, positioning is slided Second zero-bit latch of dynamic plate is extracted, and is unclamped B and is adjusted component to slide-and-guide, according to benchmark arc surface center of circle opposing arcs guide rail Face center of circle offset direction, using B to slide-and-guide adjust component to sliding panel in B to being adjusted, adjust to making benchmark circular arc The nonconcentricity in the face center of circle and the arc guide rail face center of circle is not more than 0.02mm, write down sliding panel B to adjustment movement Distance, displacement is less than 1.524mm, and the listrium benchmark arc surface of tetrad guide vane meets requirement, and otherwise, not meeting will Ask.

Claims (10)

1. it is a kind of detection tetrad guide vane circular arc benchmark method, it is characterised in that comprise the following steps：

(1) by using guide's detection means measured benchmark arc surface radially with respect to tetrad from A to the actual difference of benchmark Guide vane (1), by locating blades leading edge A1, A2 that is fixed on sliding panel (3) and the align member of A3 points, locating blades The align member of the align member and locating blades blade back C6 points of benchmark arc surface back surface B 4 and B5 points is placed in measurement apparatus On sliding panel, the locating point position of each align member sets according to the anchor point that tetrad guide vane design drawing determines；Survey The sliding panel and detection plate of amount device is adjusted respectively by the first zero-bit latch (2) and two A being oppositely arranged to slide-and-guide Component, the second zero-bit latch (5) and two B being oppositely arranged slidably are oriented to slide-and-guide adjustment component and are adjustably placed in In base plate plate face, make on the theoretical arc surface of tetrad guide vane benchmark and measurement plate that radian identical is placed on sliding panel The circular arc in arc guide rail face is corresponding and concentric；

(2) by positioning sliding panel the first zero-bit latch extract, using A to slide-and-guide adjustment component (4) to sliding panel A to Adjust out in the front difference for having measured and having obtained, make the tetrad guide vane benchmark arc surface being placed on sliding panel be located at A to reason By fixed behind position；

(3) amesdial is arranged on and is designed with along the gauge stand by the arc guide rail face moving structure in detection plate, set with fixation Put simulation zero-bit in detection plate on table block (7) to table point on the basis of, arc guide rail face is first measured by amesdial Home position, then promotes dial gage base to move along arc guide rail face, and by amesdial tetrad guide vane benchmark circular arc is measured The home position in face；

(4) for the benchmark arc surface center of circle and arc guide rail face center of circle nonconcentricity are not less than setting value, sliding panel will be positioned The second zero-bit latch extract, according to benchmark arc surface center of circle opposing arcs guide pass center of circle offset direction, led to slip using B To adjustment component to sliding panel in B to being adjusted, adjust to making the benchmark arc surface center of circle different from the arc guide rail face center of circle Heart degree in range of set value, write down sliding panel B to adjustment displacement, displacement is less than design load, tetrad directing vane The listrium benchmark arc surface of piece meets requirement, otherwise, undesirable.

2. it is according to claim 1 detection tetrad guide vane circular arc benchmark method, it is characterised in that tetrad directing vane After piece is placed on six align members of sliding panel, the clearance gauge for being not more than setting value with thickness checks six align member anchor points Contact positioning scenarios, if clearance gauge passes through, readjust positioning states, prevent clearance gauge from by contact anchor point.

3. the method for detection tetrad guide vane circular arc benchmark according to claim 2, it is characterised in that the clearance gauge is The clearance gauge of 0.02mm thickness.

4. according to claim 1 or 2 or 3 detection tetrad guide vane circular arc benchmark method, it is characterised in that positioning The align member of blade inlet edge A1, A2 and A3 point is the alignment pin that positioning is acted on by cylinder, and locating blades benchmark arc surface is carried on the back The align member of face B4 and B5 point and the align member of locating blades blade back C6 points are the bulb positioning that positioning is acted on by sphere Component.

5. according to claim 1 or 2 or 3 detection tetrad guide vane circular arc benchmark method, it is characterised in that benchmark The arc surface center of circle is not more than 0.02mm with arc guide rail face center of circle nonconcentricity.

6. it is according to claim 4 detection tetrad guide vane circular arc benchmark method, it is characterised in that benchmark arc surface The center of circle is not more than 0.02mm with arc guide rail face center of circle nonconcentricity.

7. according to claim 1 or 2 or 3 detection tetrad guide vane circular arc benchmark method, it is characterised in that slide It is 0.508mm to the mobile ultimate range of adjustment that plate adjusts component in A using A to slide-and-guide；Sliding panel is led using B to slip It is 1.524mm to the mobile ultimate range of adjustment to component is adjusted in B.

8. it is according to claim 4 detection tetrad guide vane circular arc benchmark method, it is characterised in that sliding panel utilize It is 0.508mm to the mobile ultimate range of adjustment that A adjusts component in A to slide-and-guide；Sliding panel is adjusted using B to slide-and-guide Component is 1.524mm to the mobile ultimate range of adjustment in B.

9. it is according to claim 5 detection tetrad guide vane circular arc benchmark method, it is characterised in that sliding panel utilize It is 0.508mm to the mobile ultimate range of adjustment that A adjusts component in A to slide-and-guide；Sliding panel is adjusted using B to slide-and-guide Component is 1.524mm to the mobile ultimate range of adjustment in B.

10. it is according to claim 6 detection tetrad guide vane circular arc benchmark method, it is characterised in that sliding panel profit It is 0.508mm to the mobile ultimate range of adjustment to adjust component in A to slide-and-guide with A；Sliding panel is adjusted using B to slide-and-guide Whole group part is 1.524mm to the mobile ultimate range of adjustment in B.