RU122974U1 - SWITCH CONTROL UNIT FOR BACKUP CONTROL OF MECHANIZATION OF SLATCHES - Google Patents

Abstract

1. A block of switches of drives for redundant control of mechanization of wing slats of an aircraft, mainly of the type of a transport, landing aircraft, characterized in that it contains two electromechanical toggle switches of the drives and a double control handle consisting of two coaxial two-arm levers of the first kind, made with the possibility of detachable locking of the levers for simultaneous or autonomous switching action on these toggle switches, while the switch unit is mounted in a power case, structurally made in the form of a flat frame open from opposite sides, preferably with a closed rectangular contour and with an axle fixed in the upper part of the frame, on which said double handle, and the mentioned toggle switches are mounted on the lower frame element parallel to the said axis, and are equipped with rods with push heads, and each lever of the double handle contains an upper and lower shoulder, ve more of which is provided on top with a through open coaxial groove, made with the possibility of reciprocally locking insertion into it of a blocking upper arm of a two-armed retainer by means of a hinge of one of the levers pivotally fixed in the head part of the upper arm, while the cross-sectional configuration of the upper arm of the retainer inserted into the said slot is made coinciding with the configuration of the cross-section of the groove to allow simultaneous locking locking of the groove of both levers, and also has a length preferably corresponding to the total width of the head part

Description

The invention relates to aeronautical engineering, and in particular to devices for reserve control of the mechanization of an airplane wing having flaps and slats, in particular, to control switch blocks of control drives.

A device is known for controlling a group of electromechanical actuator switches, comprising a two-arm lever that has a handle function, the upper arm of which has two-link switches and switches equipped with antifriction tips, the device being configured to control several switches simultaneously with a lever with a handle function, while maintaining the possibility of separately checking the operation of control channels. In the known device, a movable frame with slots is attached to the lower arm of the lever to accommodate the antifriction tips of the switches (AC No. 520823, 11/14/1974).

The disadvantages of this device include the large dimensions and weight, the increased risk of foreign objects getting into the recess in the lower part of the lever that is opened during ground control of the normal operation of each control channel, and the requirement for mandatory ground control of the correct installation of the moving frame and the absence of foreign objects in the recess near the lever after health checks of each drive control channel from its toggle switch.

It is also known a device for controlling actuator switches, comprising a switch unit that performs the functions of a handle a two-arm lever, interacting with the switches through the transmission link, as well as rocking keys. The transmission link is made in the form of a two-shouldered lever, rigidly mounted on the axis. One shoulder of the lever has two planes for interacting with the rockers, and on the other a spring is fixed, the ends of which are also in contact with the rockers. Rocking chairs are placed on the axis of the handle and have blinds, and the handle is spring-loaded (SU 1607601 A1, 02/10/2005).

The disadvantages of this device include the structural imperfection of the drive switch block, and consequently the increased complexity of operation, expressed in the need to remove the side hatches of the motor console when separately checking the operation of the device from each drive control channel, the complicated approach to the device, and also the increased material consumption and dimensions devices.

The problem solved by the utility model is to develop a design of a block of drive switches for backup control of slat mechanization, which provides higher operational qualities of a backup control of mechanization by creating a structural system for a block of switch drives that provides increased usability of a backup control system for wing mechanization while reducing the number and complexity of the operation made by one double handle controlling several switches yami; increasing reliability and safety in normal and emergency situations while reducing the dimensions and weight of the structure and ensuring the possibility of quick, without the use of tools, transfer of a double handle from the separate check mode of serviceability of each channel to the neutral position or to the backup control mode of the slats mechanization.

The problem is solved due to the fact that the block of switches for backup control of the mechanization of wing slats of the aircraft, according to a utility model, contains two electromechanical toggle switches of the drive switches and a double control handle made of two coaxial two-arm levers of the first kind, made with the possibility of releasable locking levers for simultaneous or autonomous switching action on the indicated toggle switches, while the switch block is mounted in the power housing e, structurally made in the form of a flat frame open from opposite sides, preferably with a closed, rectangular contour and with an axis fixed to the upper part of the frame, on which the said double handle is mounted with the possibility of rotation, said toggle switches mounted on the lower frame element parallel to the said axis, and are equipped with rods with pressure heads, and each lever of a double handle contains an upper and lower shoulder, the upper of which is equipped with a through open coaxial groove made on top the possibility of a reciprocating locking institution in it of a blocking upper shoulder of a two-shouldered latch, by means of a hinge pivotally mounted in the head of the upper shoulder of one of these levers, the cross-sectional configuration of the latch being inserted into said groove of the upper shoulder is made coincident with the cross-sectional configuration of the groove to enable simultaneous locking locking the groove of both levers, and also has a length, preferably corresponding to the total width of the head part the upper arm of the lockable levers of the double handle, and the other shoulder of the latch is spring-loaded with the possibility of elastic rotation of the specified latch in the range from, mainly, the control position is “open and unlocked” to the main operating position “closed and locked”, in addition, the lower arm of each lever of the double handle is equipped contact elements made in the form of a control plug, with the possibility of introducing into it with a technological gap the corresponding head of the said rod of the actuator switch toggle switch, and the actuator push-button switch heads are equipped with antifriction tips and, in addition, each of the mentioned double handle levers is mounted on an axis with the ability to perform working deviations in the range from ± 3 ° to ± 20 ° to release or remove the corresponding mechanization elements wing and with the ability to automatically return the handle to a neutral position due to the two-sided elastic impact on the handle of the contact switches of the toggle switches.

Moreover, each of the mentioned levers of the double handle can be mounted on an axis with the possibility of performing, for the release or removal of the corresponding elements of the mechanization of the wing, control operating deviations produced, preferably, in the range of ± 15 °.

In addition, the rod heads of push buttons with antifriction tips of the unit drives can be made to provide release when the front side of the levers of the double handle is pressed, and when the other side is pressed, they provide reverse movement or complete removal of the slats.

To fix the double handle in the neutral position when the backup control system for the slats mechanics is not activated, the upper arms of the slats of the latter can be detachably enclosed in the hinged casing in the form of a cap that freely covers them with a conformal joint contour of the levers, at least in the block section with a slot in the cover.

The technical result achieved by the utility model consists in the development of a block of drive switches for backup control of the mechanization of slats of increased structural simplicity, while this handle provides improved conditions for the backup control of mechanization, increased reliability and safety in ground and flight situations, while reducing the weight and dimensions of the block of switch blocks of the backup drives control of the mechanization of slats, and as a result, the block of switches of the backup control of mechanization her wings of the aircraft as a whole due to the composition of the locking and unlocking double levers of the control handle found in the utility model. These positive qualities are implemented in a utility model by increasing the ease of inclusion and use in emergency situations and by channel-by-channel control of the backup mechanization control system, as well as by reducing the number and complexity of operations performed by the proposed unit. The technical result of the utility model is also provided due to more convenient control of one double handle of the unit by several switches. The reliability and safety of the utility model is also achieved by performing fast, without the use of separate tools for checking the serviceability of the backup control channels from each switch.

The essence of the utility model is illustrated by drawings, where:

figure 1 shows a block of switches of the drives backup control of the mechanization of slats, a longitudinal section;

figure 2 is a block of switches drives backup control of the mechanization of slats, a cross section;

The switch block 1 of the backup drives for controlling the wing slats mechanization of the aircraft contains two electromechanical toggle switches 2 of the drive switches and consisting of two coaxial two-arm levers 3 of the first kind, a double control handle 4 made with the possibility of releasable locking of the levers 3 for simultaneous or autonomous switching action on these toggle switches 2 The switch unit 1 is mounted in a power housing 5, which is structurally made in the form of a flat frame 6 open from opposite sides with a closed clean, rectangular outline. An axis 7 is fixed in the upper part of the frame, on which the aforementioned double handle 4 is mounted with the possibility of rotation. The toggle switches 2 are mounted on the lower frame element 6 parallel to the aforementioned axis 7. The toggle switches are equipped with rods 8 with pressure heads 9. Each lever 3 of the double handle 4 contains the upper 10 and lower arm 11. The upper arm 10, of each of the levers 3, is provided on top with a through open coaxial groove 12 configured to reciprocally lock the upper arm of the two shoulders latch 13 into it, by means of a hinge of one of the levers 3 rotatably fixed in the head of the upper arm 10 The cross-sectional configuration of the latch 13 introduced into the said groove of the upper arm corresponds to the cross-sectional configuration of the groove 12 and has a length preferably corresponding to the total width of the head of the upper arms 10 of the lockable levers 3 of the double handle 4. The other shoulder of the latch 13 is spring loaded with the possibility of elastic rotation of the specified latch 13 in the range from the control position "open and unlocked" to main operating position “closed and interlocked”. The lower shoulder 11 of each lever 3 of the double handle 4 is equipped with contact elements 14 made in the form of a control fork 15, with the possibility of introducing into it with the technological clearance of the corresponding head 9 of the rod 8 of the electromechanical toggle switch 2 of the actuator controls for controlling the wing slats of the aircraft. The heads 9 of the rods 8 of the pressure switches 1 of the drives are equipped with anti-friction tips 16. Each of the levers 3 of the double handle 4 is mounted on the axis 7 with the ability to perform working deviations in the range from ± 3 ° to ± 20 ° to release or remove the corresponding elements of the wing mechanization and the ability to automatically return the handle 4 to a neutral position due to the bilateral elastic impact on the handle 4 of the switches of the toggle switches 2 in contact with it.

Each of the levers 3 of the double handle 4 is mounted on the axis 7 with the possibility of execution, for the release or removal of the corresponding elements of the mechanization of the wing, control operating deviations produced, preferably, in the range of ± 15 °.

Having anti-friction tips 16 heads 9 rods 8 push switches 1 of the unit drives are made providing when pressing the front side of the levers 3 of the double handle 4 release, and when you press the other side to provide reverse movement or complete removal of the slats.

To fix the double handle 4 in the neutral position when the backup control system for the slats is not activated, the upper arms 10 of the levers 3 of the latter are detachably enclosed in the hinged casing 17 in the form of a cap freely enclosing them with a conformal joint contour of the levers 3, at least in a block section with a slot in the lid .

The proposed device works as follows. To switch to the backup control of the mechanization of the slats, it is necessary to tilt the casing 17. By tilting the double handle 4 forward in the direction of flight, the slats are cleaned, and the slats are released back. When turning the locked two-arm levers 3, the double handle 4 on the axis 7, the forks 15 of the lower shoulders 11 of the said levers 3, click on the antifriction tips 16 of the head 9 of the rods 8 of the toggle switches 2, giving a command signal for moving the slats, the angular position of which is monitored by signs. When you release the double handle 4, it takes a neutral position, stopping the movement of the slats. When channel-by-channel checking the operation of the slats control, it is necessary to raise the shoulder of the two-shoulder lock 13. For the convenience of raising the upper shoulder of the two-shoulder lock 13, an additional recess is made on the upper part of the shoulder 10 of the lever 3. Raising the upper arm of the latch 13 from the coaxial groove 12, the upper arm of the latch 13 is thereby automatically recessed into the hole in the upper part of the lever 3 another, spring-loaded shoulder of the latch 13.

Unlocking the levers 3 of the double handle 4, check the operation of each control channel by alternately deviating the levers 3 to release or clean the slats.

Thus, by creating a constructive system of the block of switch drives provides increased convenience of using the backup control system of the mechanization of the wing of the aircraft while reducing the number and complexity of operations.

Claims (4)

1. The switch block of the backup control drives for the mechanization of the wing slats of an aircraft, mainly a transport, landing aircraft, characterized in that it contains two electromechanical toggle switches of the drive switches and consisting of two coaxial two-arm levers of the first kind, a double control handle made with the possibility of releasable locking of the levers for simultaneous or autonomous switching action on the indicated toggle switches, while the switch block is mounted in force in a housing structurally made in the form of a flat frame open from opposite sides, preferably with a closed rectangular contour and with an axis fixed to the upper part of the frame, on which the said double handle is mounted with the possibility of rotation, said toggle switches mounted on the lower frame element parallel to the said axis , and are equipped with rods with pressure heads, and each lever of a double handle contains an upper and lower shoulder, the upper of which is equipped with a through open coaxial groove on top, with the possibility of a reciprocating locking institution of a blocking upper shoulder of a two-shoulder latch into it by means of a hinge pivotally mounted in the head of the upper shoulder of one of the levers, the cross-sectional configuration of the latch being inserted into said groove of the upper shoulder is made coincident with the cross-sectional configuration of the groove to enable simultaneous locking locking groove of both levers, and also has a length, preferably corresponding to the total width of the head the upper arm of the lockable levers of the double handle, and the other shoulder of the latch is spring loaded with the possibility of elastic rotation of the specified latch in the range from the predominantly control position “open and unlocked” to the main operating position of “closed and locked”, in addition, the lower arm of each lever of the double handle is equipped with contact elements made in the form of a control plug, with the possibility of introducing into it with a technological clearance of the corresponding head of the said electromechanical rod of the actuator switch toggle switch, and the actuator push-button switch heads are equipped with antifriction tips and, in addition, each of the mentioned double handle levers is mounted on an axis with the ability to perform working deviations in the range of ± 3 ° to ± 20 ° to release or remove the corresponding mechanization elements wing and with the ability to automatically return the handle to a neutral position due to the two-sided elastic impact on the handle of the contact switches of the toggle switches. 2. The switch unit of the backup control drives for the mechanization of the slats according to claim 1, characterized in that each of the said double-handle levers is mounted on an axis with the possibility of executing operating deviations for releasing or removing the corresponding wing mechanization elements, preferably in the range of ± 15 °. 3. The block of switches for backup control drives for the mechanization of slats according to claim 1, characterized in that the anti-friction tips of the rod heads of the push switches of the block drives are made to provide release when the front side of the levers of the double handle is pressed, and when pressed to the other side, they provide reverse movement or complete removal of slats. 4. The switch block of the backup control drives for the mechanization of the slats according to claim 1, characterized in that for fixing the double handle in the neutral position when the backup control system for the mechanics of the slats is not activated, the upper arms of the levers of the latter are detachably enclosed in a hinged casing in the form of a cap freely covering them with a conformal joint the contour of the levers, at least in the area of the block, a slot in the cover.