CN208254797U - It is a kind of for blade thermal mechanical fatigue-creep experimental rig - Google Patents

Abstract

It is a kind of for blade thermal mechanical fatigue-creep experimental rig, belong to mechanical test technical field.The utility model solves the problems, such as that existing research technique not can guarantee the accuracy of thermal shock test and its related experiment.Technical essential: blade root fixture has air flow inlet, horizontal gas flow channel, vertical airflow channel and air stream outlet, air-flow is entered by air flow inlet, followed by horizontal gas flow channel, vertical airflow channel, it is flowed out by air stream outlet, blade interior runner is eventually entered into, electromagnetic induction coil is wound on blade.Blade thermal mechanical fatigue-creep experimental rig simulates rotary centrifugal force by hydraulic system, simulates hot environment by electromagnetic induction coil, simulates blade interior air-flow by blade root fixture, air compressor and air storage element.By the way that airflow channel is arranged in blade holder position, keep test more accurate to achieve the purpose that simulate real running environment for blade interior channel gas supply.

Description

It is a kind of for blade thermal mechanical fatigue-creep experimental rig

Technical field

The utility model relates to a kind of experimental rigs for blade thermomechanical property, and in particular to one kind is for blade heat Mechanical fatigue-creep experimental rig, belongs to mechanical test technical field.

Background technique

Aero-engine, the turbo blade working environment of gas turbine are extremely severe, run in the high temperature environment, and by To the influence of the combined loads such as rotary centrifugal force, thermal shock, pneumatic, fatigue crack is easily generated on turbo blade, until leaf Piece fracture, causes great casualties and property loss.The test of presently relevant content is also immature, and it is difficult to ensure that heat The accuracy of impact test and its related experiment.

Utility model content

The brief overview about the utility model is given below, in order to provide certain sides about the utility model The basic comprehension in face.It should be appreciated that this general introduction is not the exhaustive general introduction about the utility model.It is not intended to really The key or pith of the utility model are determined, nor intended limitation the scope of the utility model.Its purpose is only with letter The form of change provides certain concepts, taking this as a prelude to a more detailed description discussed later.

In consideration of it, the utility model not can guarantee thermal shock test and its related experiment to solve existing research technique The problem of accuracy, and then devise a kind of for blade thermal mechanical fatigue-creep experimental rig.

The scheme that the utility model is taken are as follows: a kind of for blade thermal mechanical fatigue-creep experimental rig, including examination Test rack, measuring unit, blade fixture, blade, blade root fixture, hydraulic system, air compressor and air storage element；It is described The top of test-bed is from top to bottom connected with measuring unit and blade fixture in turn, is bolted；Blade fixture and leaf Piece connection, blade pass through the mutual cooperation realization of the tongue-and-groove opened up on blade root and blade root fixture and being connected for blade root fixture, blade root Fixture is with hydraulic system by being connected；Air compressor is connect with air storage element, air storage element and blade root fixture Air flow inlet is connected；Blade root fixture have air flow inlet, horizontal gas flow channel, vertical airflow channel and air stream outlet, air-flow by Air flow inlet enters, and followed by horizontal gas flow channel, vertical airflow channel, is flowed out, is eventually entered into blade by air stream outlet Portion's runner, electromagnetic induction coil are wound on blade.

Wherein, blade thermal mechanical fatigue-creep experimental rig can simulate rotary centrifugal force by hydraulic system, lead to Electromagnetic induction coil is crossed to simulate hot environment, blade is simulated by blade root fixture, air compressor and air storage element Internal gas flow.By the way that airflow channel is arranged in blade holder position, for blade interior channel gas supply, simulated really to reach The purpose of running environment keeps test more accurate.

Further: two air flow inlets being set altogether on the blade root fixture, are distributed in tongue-and-groove two sides, are located at blade root fixture Middle position in the front-back direction, at the one third height of up and down direction.

Further: two air stream outlets being set on the blade root fixture, are distributed in the both ends of tongue-and-groove bottom, air stream outlet The center of circle prolong the direction of tongue-and-groove, the distance away from groove edge is the 1/9 of tongue-and-groove total length.

Further: each air flow inlet passes sequentially through horizontal gas flow channel, vertical airflow channel goes out with the air-flow closed on Mouth connection, forms the complete airflow channel of twice in blade root fixture.

Further: the specific section form of the tongue-and-groove of the blade root fixture is vertical tree type blade root, dove-tail form blade root or T Type blade root.

Further: the bottom of the blade root fixture has bolt hole, for being threadedly coupled hydraulic system.

Further: the air storage element is connected by gas pipeline with the air flow inlet of blade root fixture, and defeated Flow control valve and device for pressure measurement are set gradually in feed channel.So set, air capacity needed for blade is by adjusting stream Control valve is controlled, and the monitoring of admission pressure is carried out using device for pressure measurement.

Further: the blade fixture dimidiation is fastened by bolts and is fastened on blade.

Further: the air compressor is connect by air compressor pipeline with air storage element, and in air Flow control switch is set on Compressor Pipes.

The utility model effect achieved are as follows:

The utility model devises a kind of fixture with airflow channel, and the gas supply to the inner flow passage of blade may be implemented, Achieve the purpose that the true operating condition of simulation, thus thermomechanical-creep life of more accurate prediction blade.Blade is thermomechanical The experimental rig of spleen tissue extracts can simulate rotary centrifugal force by hydraulic system, simulate height by electromagnetic induction coil Warm environment simulates blade interior air-flow by blade root fixture, air compressor and air storage element.By in blade holder Airflow channel is arranged in position, makes test more to achieve the purpose that simulate real running environment for blade interior channel gas supply It is accurate to add.

Detailed description of the invention

Fig. 1 is a kind of main view for blade thermal mechanical fatigue-creep experimental rig of the utility model；

Fig. 2 is the schematic diagram of the air supply system of the utility model；

Fig. 3 is the stereoscopic schematic diagram of the blade root fixture of the utility model；

Fig. 4 is the blade root fixture inner flow passage schematic cross-section of the utility model；

Fig. 5 is the bottom schematic view of the blade root fixture of the utility model.

In figure:

1, test-bed；2, measuring unit；3, blade fixture；4, blade；5, blade root fixture；6, hydraulic system；7, air Compressor；8, air storage element；41, electromagnetic induction coil；42, blade root；51, air flow inlet；52, air stream outlet；53, horizontal Airflow channel；54, section；55 bolts hole；56, tongue-and-groove；57, vertical airflow channel；71, flow control switch；72, air compresses Machine pipeline；81, flow control valve；82, device for pressure measurement；83, gas pipeline.

Specific embodiment

For clarity and conciseness, all features of actual implementation mode are not described in the description.However, should Understand, much decisions specific to embodiment must be made, during developing any this practical embodiments so as to reality The objectives of existing developer, for example, meeting restrictive condition those of related to system and business, and these restrictive conditions It may be changed with the difference of embodiment.In addition, it will also be appreciated that although development is likely to be very multiple It is miscellaneous and time-consuming, but for the those skilled in the art for having benefited from the utility model disclosure, this development is only It is routine task.

Here, and also it should be noted is that, in order to avoid having obscured the utility model because of unnecessary details, in Shen It please illustrate only the apparatus structure and/or processing step closely related with scheme according to the present utility model in file, and save The other details little with the utility model relationship are omited.

Embodiment: referring to Fig. 1 to Fig. 5, a kind of of present embodiment fills for blade thermal mechanical fatigue-creep test It sets, including test-bed 1, measuring unit 2, blade fixture 3, blade 4, blade root fixture 5, hydraulic system 6,7 and of air compressor Air storage element 8；The top of the test-bed 1 is from top to bottom connected with measuring unit 2 and blade fixture 3 in turn, passes through It is bolted；Blade fixture 3 is connect with blade 4, and blade 4 passes through the mutual of the tongue-and-groove 56 opened up on blade root 42 and blade root fixture 5 Cooperation realization is connected with blade root fixture 5, and blade root fixture 5 is with hydraulic system 6 by being connected；Air compressor 7 passes through air pressure Contracting machine pipeline 72 is connect with air storage element 8, and flow control switch 71 is arranged on air compressor pipeline 72, air storage Memory cell 8 is connected by gas pipeline 83 with the air flow inlet 51 of blade root fixture 5, and sets gradually flow on gas pipeline 83 Control valve 81 and device for pressure measurement 82；Blade root fixture 5 has air flow inlet 51, horizontal gas flow channel 53, vertical airflow channel 57 and air stream outlet 52, air-flow entered by air flow inlet 51, followed by horizontal gas flow channel 53, vertical airflow channel 57, by Air stream outlet 52 flows out, and eventually enters into blade interior runner, and electromagnetic induction coil 41 is wound on blade 4, and hydraulic system 6 is installed In the bottom of test-bed 1.

More specifically: such as Fig. 4, two air flow inlets 51 being set on blade root fixture 5 altogether, are distributed in 56 two sides of tongue-and-groove, position In the middle position in the front-back direction of blade root fixture 5, at the one third height of up and down direction.

More specifically: such as Fig. 4, two air stream outlets 52 being set on blade root fixture 5, are distributed in the two of 56 bottom of tongue-and-groove The direction of tongue-and-groove 56 is prolonged in end, the center of circle of air stream outlet 52, and the distance away from 56 edge of tongue-and-groove is the 1/9 of 56 total length of tongue-and-groove.

More specifically: such as Fig. 4,5 overdraught entrance 51 of blade root fixture has horizontal gas flow channel 53, and air stream outlet 52 has Have a vertical airflow channel 57, horizontal gas flow channel 53 is horizontally disposed, and vertical airflow channel is vertically arranged, horizontal gas flow channel 53 with Vertical airflow channel 57 is located at identical section 54.

More specifically: such as Fig. 4, each air flow inlet 51 passes sequentially through horizontal gas flow channel 53, vertical on blade root fixture 5 Airflow channel 57 is connect with closer air stream outlet 52, inside blade root fixture 5, forms 2 complete airflow channels altogether.

More specifically:, can also if the specific section form of Fig. 4, the tongue-and-groove 56 of blade root fixture 5 are not limited to vertical tree type blade root For forms such as dove-tail form blade root, T-type blade roots.

More specifically: such as Fig. 5, there is bolt hole 55, for connecting hydraulic system 6.

More specifically: such as Fig. 1, which can be by hydraulic system 6 come mould Quasi- rotary centrifugal force, simulates hot environment by electromagnetic induction coil 41, passes through blade root fixture 5, air compressor 7 and air Storage element 8 simulates blade interior air-flow.

More specifically: such as Fig. 2, air capacity needed for blade is controlled by adjusting flow control valve 81, utilizes pressure The monitoring of the progress admission pressure of force measuring device 82.

Although the revealed embodiment of the utility model is as above, its content is only to facilitate understand the utility model Technical solution and the embodiment that uses, be not intended to limit the utility model.Any the utility model technical field Interior technical staff can be in the form of implementation under the premise of not departing from the utility model revealed core technology scheme With any modification and variation are made in details, but protection scope defined by the utility model still must be with appended claims Subject to the range of restriction.

Claims (9)

1. a kind of for blade thermal mechanical fatigue-creep experimental rig, including test-bed (1), measuring unit (2), blade Fixture (3), blade (4), blade root fixture (5), hydraulic system (6), air compressor (7) and air storage element (8)；The examination The top for testing rack (1) is from top to bottom connected with measuring unit (2) and blade fixture (3) in turn, is bolted；Blade folder Tool (3) is connect with blade (4), and blade (4) passes through the mutual cooperation of the tongue-and-groove (56) opened up on blade root (42) and blade root fixture (5) Realization is connected with blade root fixture (5), and blade root fixture (5) is with hydraulic system (6) by being connected；Air compressor (7) and air Storage element (8) connection, air storage element (8) are connected with the air flow inlet (51) of blade root fixture (5)；It is characterized by: leaf Root fixture (5) has air flow inlet (51), horizontal gas flow channel (53), vertical airflow channel (57) and air stream outlet (52), gas Stream is entered by air flow inlet (51), followed by horizontal gas flow channel (53), vertical airflow channel (57), by air stream outlet (52) Outflow, eventually enters into blade interior runner, electromagnetic induction coil (41) is wound on blade (4).

2. according to claim 1 a kind of for blade thermal mechanical fatigue-creep experimental rig, it is characterised in that: institute It states and two air flow inlets (51) is set altogether on blade root fixture (5), be distributed in tongue-and-groove (56) two sides, be located at before and after blade root fixture (5) The middle position in direction, at the one third height of up and down direction.

3. according to claim 2 a kind of for blade thermal mechanical fatigue-creep experimental rig, it is characterised in that: institute Two air stream outlets (52) of setting on blade root fixture (5) are stated, the both ends of tongue-and-groove (56) bottom, the circle of air stream outlet (52) are distributed in The heart prolongs the direction of tongue-and-groove (56), and the distance away from tongue-and-groove (56) edge is the 1/9 of tongue-and-groove (56) total length.

4. according to claim 3 a kind of for blade thermal mechanical fatigue-creep experimental rig, it is characterised in that: every A air flow inlet (51) passes sequentially through horizontal gas flow channel (53), vertical airflow channel (57) connects with the air stream outlet (52) closed on It connects, forms the complete airflow channel of twice in blade root fixture (5).

5. according to claim 1 a kind of for blade thermal mechanical fatigue-creep experimental rig, it is characterised in that: institute The specific section form for stating the tongue-and-groove (56) of blade root fixture (5) is vertical tree type blade root, dove-tail form blade root or T-type blade root.

6. according to claim 1 a kind of for blade thermal mechanical fatigue-creep experimental rig, it is characterised in that: institute The bottom for stating blade root fixture (5) has bolt hole (55), for being threadedly coupled hydraulic system (6).

7. according to claim 1 a kind of for blade thermal mechanical fatigue-creep experimental rig, it is characterised in that: institute It states air storage element (8) to be connected by gas pipeline (83) with the air flow inlet (51) of blade root fixture (5), and in gas pipeline (83) flow control valve (81) and device for pressure measurement (82) are set gradually on.

8. according to claim 1 a kind of for blade thermal mechanical fatigue-creep experimental rig, it is characterised in that: institute Blade fixture (3) dimidiation is stated, is fastened by bolts and is fastened on blade (4).

9. according to claim 7 a kind of for blade thermal mechanical fatigue-creep experimental rig, it is characterised in that: institute It states air compressor (7) to connect by air compressor pipeline (72) with air storage element (8), and in air compressor pipeline (72) flow control switch (71) are set on.