CN107271160A - Test method for verifying durability switch function of airplane cabin door - Google Patents

Abstract

The invention provides a test method for verifying the durability switch function of an airplane cabin door, which comprises the following steps: sending an instruction to a stepping motor driver through a microcomputer control coordination loading test system; the stepping motor is driven by a stepping motor driver to drive the airplane cabin door to move according to a preset speed and a preset angle, so that the opening and closing movement of the airplane cabin door is realized; acquiring motion parameters of the airplane door through an angular displacement sensor and providing the motion parameters to the microcomputer control coordination loading test system, wherein the microcomputer control coordination loading test system compares the motion parameters acquired by the angular displacement sensor with the motion parameters set in the microcomputer control coordination loading test system to determine whether to control the airplane door to continue to move; and stopping the test by pressing a protection button on the test console.

Description

A kind of test method for verifying aircraft door durability switching function

Technical field

The present invention relates to aircraft door endurancing, and in particular to a kind of checking aircraft door durability switching function Test method.

Background technology

Civil aircraft door design is difficult point and emphasis in civil aircraft structure, its reliability and anallobar hatch door it is airtight Performance directly influences the safety of passenger and crew, and influences the operability of ground crew, is aiMonhiness authority's focal point One of.

Aircraft door endurancing be inspection and test hatch door mechanism kinematic during wear and tear on motion influence Important method, is also the important channel that foundation is provided for door design development.Can hatch door mechanism normally transport within the design cycle Dynamic completion and the Flight Safety for directly affecting aerial mission.Analysed in depth by the type testing data to hatch door, It can improve and optimization design, the reliability of examination key mechanism and mechanism, so as to design safe and reliable aircraft door, protect Demonstrate,prove Flight Safety.

China starts late in aircraft door endurancing field, especially in Import computer switch testing field, base Originally blank is belonged to.Because aircraft door unsealing mechanism is complicated, it is related to interior receipts, deflected and several big steps of turning up, and enabling track is answered Miscellaneous, parameter fitting difficulty is high.Once there is the trial using artificial repeat switch door, but because testing itself cycle length (240,000 times), people Work unlatching is stablized, and poor, introducing uncertain factor is more, it is difficult to long lasting for progress.The use of machinery equipment switch hatch door is the experiment The key link that success is carried out.

The content of the invention

In order to solve the above-mentioned problems in the prior art, aircraft door is verified it is an object of the invention to provide one kind The test method of durability switching function, to realize that automation opens and closes hatch door, mitigates human users' burden, meets experiment Test request.

There is provided a kind of test method for verifying aircraft door durability switching function, bag according to an aspect of the present invention Include step：

Load test system is coordinated by microcomputer control and sends instruction to stepper motor driver；

By stepper motor driver Driving Stepping Motor, to drive aircraft door to be transported according to predetermined speed and angle It is dynamic, realize the switch motion of the aircraft door；

Gather the kinematic parameter of the aircraft door by angular displacement sensor and provide to microcomputer control and coordinate to add Pilot system is carried, kinematic parameter and the institute that load test system collects the angular displacement sensor are coordinated in the microcomputer control The kinematic parameter for stating setting in microcomputer control coordination load test system is compared, to determine whether to control the aircraft door Continue to move；And

Stop experiment by pressing the protection button on test console.

Wherein, Fu Men mechanisms are installed in the lower section of the aircraft door, the aircraft door is driven by Fu Men mechanisms Motion.

Wherein, aircraft door includes the handle that the side of the aircraft door is fixed on by arm pivot post, the aircraft The opposite side of hatch door is rotatably fixed to hatch door framework by linkage, and the linkage includes being installed to the aircraft The hinge rotating shaft of hatch door and the hinge rotating shaft for being installed to the hatch door framework, the Fu Men mechanisms include bent frame, be arranged in it is described The first gyroaxis, the second gyroaxis and the 3rd gyroaxis on bent frame, the stepper motor include being arranged on the first gyroaxis The first stepper motor, the second stepper motor being arranged on the second gyroaxis and the 3rd stepping being arranged on the 3rd gyroaxis Motor, the arm pivot post of the first gyroaxis and the aircraft door is coaxially arranged, and the second gyroaxis is with being installed to the aircraft cabin The hinge rotating shaft of door is coaxially arranged, and hinge rotating shaft of the 3rd gyroaxis with being installed to the hatch door framework is coaxially arranged.

Wherein, load test system is coordinated in the microcomputer control includes control software, control computer, driving stepper motor card With A/D collection plates；

The control software is used to carry out position clearing to the Fu Men mechanisms；

The control computer sends instruction to the driving stepper motor card, and the driving stepper motor card is by control parameter Pulse be sent to the stepper motor driver, to drive the stepper motor to be rotated according to control parameter, so as to drive institute State aircraft door motion；And

The kinematic parameter of the aircraft door is supplied to A/D collection plates, described plus collection plate by the angular displacement sensor Digital data transmission is converted the signal into the control computer.

Wherein, the test console is additionally provided with limit switch, is transfinited when aircraft door motion and touches described spacing Switch, the test console is automatically stopped experiment.

In order to simulate the switch operation of aircraft door, while extra load can not be brought to aircraft door again, design one Tao Fumen mechanisms are arranged on the underface of aircraft door testpieces, and the facility of operating aircraft hatch door motion is all fixed on secondary door machine On structure, the operating of aircraft door is driven by manipulating Fu Men mechanisms, the action of switch aircraft door is realized.

Set three gyroaxises in Fu Men mechanisms, these three gyroaxises respectively with aircraft door arm pivot post and two switch gates Hinge rotating shaft is coaxial, and a stepper motor is laid respectively at three gyroaxises of Fu Men mechanisms, the stepping electricity controlled by computer Machine drives aircraft door handle and switch door hinge motion, so as to realize the switch motion of aircraft door.

Brief description of the drawings

The further feature and advantage of the present invention will be more preferable by the preferred embodiment being described in detail below in conjunction with accompanying drawing Ground understanding, wherein：

Fig. 1 shows the device of the test method for the checking aircraft door durability switching function according to the present invention Operating principle figure；

Fig. 2 shows the schematic diagram that initial position is according to the aircraft door durability test device of the present invention；

Fig. 3 is shown according to the aircraft door durability test device of present invention schematic diagram in an intermediate position；And

Fig. 4 shows the schematic diagram that full open position is according to the aircraft door durability test device of the present invention.

Embodiment

In the specific descriptions of following preferred embodiment, by the accompanying drawing with reference to appended by constituting a present invention part.Institute Attached accompanying drawing, which has been illustrated by way of example, can realize specific embodiment.The embodiment of example is not intended as Limit is according to all embodiments of the invention.It is appreciated that without departing from the scope of the present invention, it is possible to use other Embodiment, can also carry out structural or logicality modification.

As shown in fig. 1, microcomputer control is mainly included according to the aircraft door durability test device of the present invention to coordinate to add Carry pilot system 10, stepper motor driver 20, stepper motor 30, angular displacement sensor 40 and test console (not shown).

According to a preferred embodiment of the invention, the test method of checking aircraft door durability switching function includes step：

Load test system 10 is coordinated by microcomputer control and sends instruction to stepper motor driver 20；

By the Driving Stepping Motor 30 of stepper motor driver 20, to drive aircraft door 50 according to predetermined speed and angle Degree motion, realizes the switch motion of aircraft door 50；

Gather the kinematic parameter of aircraft door 50 by angular displacement sensor 40 and provide to microcomputer control and coordinate loading examination Kinematic parameter and the microcomputer control that load test system 10 collects angular displacement sensor 40 are coordinated in check system 10, microcomputer control The kinematic parameter for coordinating setting in load test system 10 is compared, to determine whether that control aircraft door 50 continues to move； And

Stop experiment by pressing the protection button on test console.

Wherein, load test system 10 is coordinated in microcomputer control includes control software, control computer 11, driving stepper motor card 12 and A/D collection plates 13, it carries out whole-process control and tracking to experiment, and work order is sent to drive system, gathers feedback letter Number, coordinate each Channel Synchronous operation, record test number (TN).

Stepper motor 20 and stepper motor driver 30 are experiment executing agency, and they receive microcomputer control and coordinate loading examination The signal that check system 10 is sent, driving aircraft door 50 is according to predetermined speed and angular movement.

Angular displacement sensor 40 gathers the switch angle and running speed of aircraft door 50, and gives microcomputer control by signal Coordinate load test system 10, the kinematic parameter that load test system 10 collects angular displacement sensor 40 is coordinated in microcomputer control The kinematic parameter for coordinating setting in load test system 10 is controlled to be compared with microcomputer, to determine whether to control aircraft door 50 Continue to move.

Test console major function is that in case of emergency, testing crew presses " protection " button and stops experiment, also Have, testpieces moves the shake-up limit switch that transfinites, test console is automatically stopped experiment.

Hatch door endurancing control principle drawing is shown in Fig. 1, by control computer 11, driving stepper motor card 12, stepper motor Driver 20, stepper motor 30, angular displacement sensor 40 and A/D collection plates 13 etc. constitute closed-loop control system.During experiment, control Computer 11 sends instruction to driving stepper motor card 12, and driving stepper motor card 12 sends a series of carrying control parameters (such as：Side To, speed and stroke etc.) pulse to stepper motor driver 20, the Driving Stepping Motor 30 of stepper motor driver 20 is according to control Parameter rotation processed, drives aircraft door handle and secondary door mechanism kinematic, so as to realize the motion of aircraft door.In Fu Men mechanisms and Kinematic parameter at angular displacement sensor 40, collection Fu Men mechanisms and aircraft door handle is installed at aircraft door handle to be supplied to A/D collection plates 13, A/D collection plates 13 convert the signal into digital data transmission and give control computer 11, and control computer 11 will be gathered To feedback signal compared with output signal, if the difference drawn carries out next step behaviour into error band allowed band Make；If difference is not entered into the range of error band, control computer 11 sends instruction again, and control system continues to move, Zhi Daoman Untill foot is required, next step operation is then carried out.

As shown in Fig. 2 to Fig. 4, aircraft door durability test device also includes Fu Men mechanisms 60, and Fu Men mechanisms 60 are pacified Aircraft door 50 is driven to move mounted in the lower section of aircraft door 50.Fu Men mechanisms 60 include bent frame 61, are arranged on bent frame 61 The first gyroaxis 62, the second gyroaxis 63 and the 3rd gyroaxis 64.Stepper motor 30 includes being arranged on the first gyroaxis 62 The first stepper motor 31, the second stepper motor 32 for being arranged on the second gyroaxis 63 and be arranged on the 3rd gyroaxis 64 3rd stepper motor 33.Aircraft door 50 includes the handle 51 that the side of aircraft door 50 is fixed on by arm pivot post, aircraft The opposite side of hatch door 50 is rotatably fixed to hatch door framework 70 by linkage 80, and linkage 80 includes being installed to aircraft The hinge rotating shaft 81 of hatch door 50 and the hinge rotating shaft 82 for being installed to hatch door framework 70.The hand of first gyroaxis 62 and aircraft door 50 Handle rotating shaft is coaxially arranged, and hinge rotating shaft of second gyroaxis 63 with being installed to aircraft door 50 is coaxially arranged, the 3rd gyroaxis 64 It is coaxially arranged with the hinge rotating shaft that is installed to hatch door framework 70.

Aircraft door 50 first rotates clockwise the lock-out state that handle 51 releases aircraft door 50 when opening, and now, flies Cabin door 50 is overall motionless, and the also transfixion of Fu Men mechanisms 60, only handle 51 drives rotation by the first stepper motor 31.Unblock After completion, handle 51 is rotated further to about 126 °, and the aircraft door operating mechanism interlocked during this with handle 51, which drives, to fly Cabin door 50 is inwardly received, while Handle axis overhead cam drives and received above and below door in leaf hinge and latch hook switching mechanism is by latch hook on door Open, handle 51 also receives inwards with aircraft door 50, the first stepper motor 31 being rotated further with fixed handle 51 also should be with Inside receipts, be so just avoided that the first stepper motor 31 being fixed on the bent frame of Fu Men mechanisms is produced to handle extra negative The second stepper motor 32 and the 3rd stepper motor that load test system control Fu Men mechanisms are rotated are coordinated in lotus, at this moment microcomputer control 33 start running, manipulate Fu Men mechanisms 60 and aircraft door 50 synchronously rotate in same direction, the first stepper motor of drive 31 and handle 51 It is servo-actuated.In motion process, handle 51 can be rotated further.

After handle 51 is rotated in place, aircraft door 50 moves to estimating position, the secondary door that adjustment is synchronized with the movement with hatch door Controlling organization pins Fu Men mechanisms angles and positions, and switch gate executing agency starts, the rotation of control Fu Men mechanisms, Fu Men mechanisms with Aircraft door bindiny mechanism drives aircraft door together to be rotated around its installation axle, realizes the door opening action of aircraft door.

The closing process of aircraft door is with door opening process completely on the contrary, control principle is identical.

The technical effects of the invention are that：

1st, in order to simulate the switch operation of aircraft door, while extra load can not be brought to aircraft door again, design A set of Fu Men mechanisms are arranged on the underface of aircraft door testpieces, and the facility of operating aircraft hatch door motion is all fixed on secondary door In mechanism, the operating of aircraft door is driven by manipulating Fu Men mechanisms, the action of switch aircraft door is realized.

2nd, three gyroaxises are set in Fu Men mechanisms, these three gyroaxises are switched with aircraft door arm pivot post and two respectively Door hinge rotating shaft is coaxial, and a stepper motor, the stepping controlled by computer are laid respectively at three gyroaxises of Fu Men mechanisms Motor drives aircraft door handle and switch door hinge motion, so as to realize the switch motion of landing gate.

The technology contents and technical characterstic of the specific embodiment of the present invention are had revealed that above, it being understood, however, that in this hair Under bright creative ideas, those skilled in the art can be to various features disclosed above and the feature not being explicitly illustrated herein Combination make various changes and improve, but belong to protection scope of the present invention.The description of above-described embodiment be it is exemplary and It is not restricted, protection scope of the present invention is determined by claim.

Claims (5)

1. a kind of test method for verifying aircraft door durability switching function, it is characterised in that including step：

Load test system (10) is coordinated by microcomputer control and sends instruction to stepper motor driver (20)；

By stepper motor driver (20) Driving Stepping Motor (30), to drive aircraft door (50) according to predetermined speed and Angular movement, realizes the switch motion of the aircraft door (50)；

Gather the kinematic parameter of the aircraft door (50) by angular displacement sensor (40) and provide to the microcomputer and control association Load test system (10) is adjusted, the microcomputer control coordinates load test system (10) and gathers the angular displacement sensor (40) To kinematic parameter and microcomputer control coordinate the kinematic parameter of setting in load test system (10) and be compared, to determine The aircraft door (50) whether is controlled to continue to move；And

Stop experiment by pressing the protection button on test console.

2. the test method of checking aircraft door durability switching function according to claim 1, it is characterised in that in institute Fu Men mechanisms (60) are installed in the lower section for stating aircraft door (50), drive the aircraft door (50) to transport by Fu Men mechanisms (60) It is dynamic.

3. the test method of checking aircraft door durability switching function according to claim 2, it is characterised in that aircraft Hatch door (50) includes the handle (51) that the side of the aircraft door (50) is fixed on by arm pivot post, the aircraft door (50) opposite side is rotatably fixed to hatch door framework (70) by linkage (80), and the linkage (80) includes peace It is attached to the hinge rotating shaft (81) of the aircraft door (50) and is installed to the hinge rotating shaft (82) of the hatch door framework (70), it is described Fu Men mechanisms (60) include bent frame (61), the first gyroaxis (62) being arranged on the bent frame (61), the second gyroaxis (63) With the 3rd gyroaxis (64), the stepper motor (30) includes the first stepper motor being arranged on the first gyroaxis (62) (31) the second stepper motor (32), being arranged on the second gyroaxis (63) and the 3rd step being arranged on the 3rd gyroaxis (64) Stepper motor (33), the arm pivot post of the first gyroaxis (62) and the aircraft door (50) is coaxially arranged, the second gyroaxis (63) It is coaxially arranged with the hinge rotating shaft (81) that is installed to the aircraft door (50), the 3rd gyroaxis (64) and it is installed to the hatch door The hinge rotating shaft (82) of framework (70) is coaxially arranged.

4. the test method of the checking aircraft door durability switching function according to any one of Claim 1-3, it is special Levy and be, load test system (10) is coordinated in the microcomputer control includes control software, control computer (11), driving stepper motor Block (12) and A/D collection plates (13)；

The control software is used to carry out position clearing to the Fu Men mechanisms (60)；

The control computer (11) sends instruction to the driving stepper motor card (12), and the driving stepper motor card (12) will The pulse of control parameter is sent to the stepper motor driver (20), to drive the stepper motor (30) according to control parameter Rotation, so as to drive the aircraft door (50) to move；And

The kinematic parameter of the aircraft door (50) is supplied to A/D collection plates (13) by the angular displacement sensor (40), described A/D collection plates (13) convert the signal into digital data transmission to the control computer (11).

5. the test method of checking aircraft door durability switching function according to claim 1, it is characterised in that described Test console is additionally provided with limit switch, is transfinited when aircraft door motion (50) and touches the limit switch, the experiment Console is automatically stopped experiment.