RU2370412C1 - Assembly of control drives - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: invention relates to aircraft engineering, particularly to drives of control aerodynamic surfaces. Assembly of control drives comprises actuators, each consisting of the housing, control surface shaft, high-speed motor and reduction gear. Additionally, each actuator comprises moving toothed rack and toothed quadrant in mesh with the latter. Toothed quadrant is fitted on the control surface shaft, while reduction gear is additionally furnished with ball-and-screw gear wherein sliding nut engages aforesaid rack, while sliding screw is fitted on the helical gear output shaft. Note here that the number of helical gear stages does not exceed two.

EFFECT: simplified design.

2 cl, 4 dwg

Description

The invention relates to the field of control drives for aerodynamic control surfaces of unmanned aerial vehicles and can be used both when creating new and modernizing existing aircraft.

Known blocks of steering drives, consisting of four actuators located in a volume limited by two coaxial cylindrical surfaces: the block body, which is the outer shell of the aircraft, and the gas engine. Each actuator contains a housing, a part-turn shaft of the steering surface, a multi-stage gearbox and an electric motor. The reduction gear consists of gear cylindrical pairs or gear cylindrical and bevel pairs (see steering gear, AS 1794804, publ. 02.15.1993, No. 6, as well as Krymov V.G., Rabinovich L.V., Stebletsov V.G. Executive devices of control systems for aircraft, M., Mechanical Engineering, 1987, Fig. 4.1, p.164).

The disadvantage of these blocks of steering drives is the large construction height of their actuators, caused by the presence of a large number of steps in the gearboxes, which is due to the need to ensure large gear ratios (about 150 ... 250 units). This is a significant obstacle to increasing the diameter of the engine gas duct passing through the block of steering drives, which is necessary when increasing the power characteristics of unmanned aerial vehicle engines.

One of the possible solutions to the problem of creating a block of steering drives with a reduced construction height of its actuators is a steering drive block represented by patent RU 2102282 C1 according to cl. ВСС 13/34 dated November 13, 1996. This device is the closest analogue of the technical solution proposed here.

According to the said patent, the steering drive unit consists of four actuators located in a volume limited by two coaxial cylindrical surfaces, the outer of which is the common housing of the unit, each actuator comprising its own housing, a part-turn shaft of the steering surface, a high-speed electric motor, a multi-stage gearbox from sequentially arranged gears and a feedback sensor of the position of the shaft of the steering surface, including a split gear, and a multi-stage gearbox is made of three types of sequentially arranged gears - input bevel, intermediate cylindrical and output wave, made according to a symmetrical pattern, in which the wave former is made of three disks, and the wave clutch is made of two rings, rigidly connected to the housing and located on both sides of the hard wheel, inside of which is located a flexible wheel-ring.

The disadvantage of this device is the increased complexity and high cost of its manufacture. In addition, when using this device there are great difficulties with the unification of the layout of the drive units in the case of their use on various sizes of aircraft.

The objective of the invention is to provide a simpler and cheaper high-speed (with small masses of moving parts) design of the steering gear unit while maintaining its compactness.

The technical result is to simplify the design of the block of steering drives and increase its speed.

To solve this problem, in the block of steering drives containing actuators, each of which has a housing, a shaft of the steering surface, a high-speed electric motor and a gearbox including a cylindrical gear transmission, each actuator is additionally equipped with a movable gear rack and a gear sector engaged with it, mounted on the shaft of the steering surface, and the gearbox is supplemented by a ball screw transmission, in which the spindle nut is connected to the specified rail, and the spindle is fixed to the output shaft above the cylindrical gear, and the number does not exceed the last two stages.

The ball screw screw nut is made monolithic with an internal groove for moving balls in the form of a thread channel and a ball return channel, in which the length of the ball return channel is less than the length of the thread channel, but greater than 2 × t, where t is the thread pitch of the running nut.

Moreover, the inner groove is made in the form of at least one single-turn closed loop, most of which is made in the form of a thread channel, and the smaller one forms the ball return channel.

When using an internal groove in the drive nut in the form of a series of single-turn closed loops, these closed loops are deployed relative to each other around the longitudinal axis of the nut, mainly distributed uniformly around its circumference.

In this case, the minimum turning radius of the axis of the inner groove in the region of the ball return channel is at least 2 × r _w , where r _w is the radius of the ball.

The combination of a low-speed cylindrical gear transmission (no more than two steps) and a combination of a ball screw and rack gear allowed to place tightly and practically in the same plane all the main components of the actuator (electric motor, cylindrical gear pairs of the gearbox, ball screw and rack gear) and, thus, ensure its small construction height and free up sufficient space in the center of the housing for the engine gas duct.

The study of various layout options for the block of steering gears showed that when using a ball screw and rack gear in its gearbox, the optimal configuration of the gearbox gearbox is a set of gear cylindrical pairs with no more than two stages, since with a larger number of stages the block layout worsens, and the overall the geometric volume of the block of steering drives increases sharply, which is unacceptable according to the conditions of placement of the block in the rocket.

In existing designs of ballscrews, the running nut is made with additional parts forming the ball return channel (overtaking tubes, liners, etc.), which require individual refinement or adjustment. These additional parts weaken the nut and reduce its strength, as a result of which the dimensions of the nut have to be increased, which entails an increase in its weight.

In the present invention, the running nut is made integral and, therefore, is more durable and can be made of less mass, which reduces the inertia of the drive as a whole.

Grooves on the inner surface of the travel nut without using the above additional parts can now be implemented using the method of electric spark machining using a piercing EDM machine with software control on which a copper electrode with a spherical head part moves programmatically inside the nut blank, forming the required groove parameters on the inside of the nut. The parameters of the head of the electrode are determined by the dimensions of the selected transfer ball.

The proposed technical solution is quite universal both in possible locations and in the magnitudes of the created moments on the shaft of the steering surface. Indeed, the actuator block of the steering gear unit can be made as dispersed in the plane to reduce the building height (as in the layout below with the gas duct inside), and arranged in a three-dimensional volume (for the case of a small total diameter of the steering gear unit in the absence of passing through gas duct). The magnitude of the available moments on the shaft of the steering surface can be changed simply by changing the power of the electric motor and the size of the remaining components of the actuator. In particular, when the load on the ball screw nut is increased, it can be made with an internal groove in the form of two or four of the aforementioned single-turn closed loops.

The invention is illustrated by drawings, where figure 1 shows the layout of the block steering gears (cross section); figure 2 - one of the four actuators of the block of steering drives (view along the axis of the shaft of the steering surface); figure 3 is a longitudinal section of a ball screw nut of a gear drive of a gearbox of a block of steering drives in an embodiment with two closed loops for moving balls; Figure 4 shows a scan of the inner surface of this embodiment of a ball nut with portions of a threaded channel and a ball return channel.

The block of steering drives contains a common housing 1, in which four identical actuators 2 are placed, each of which includes a supporting frame 3, a part-turn shaft 4 with a sector 5 of the gear wheel mounted in rolling bearings 6, 7 in the frame 3, a high-speed electric motor 8, the sensor 9 of the angular position of the steering surface with the gear 10 interacting with the sector 11 of the gear mounted on the shaft 4, and lowering the multi-stage gear.

The latter includes the first unit (cylindrical gear), closed by a cover 12, consisting of two pairs of cylindrical gears 13-16, and the second unit, made in the form of a ball screw mounted on the output shaft of the first unit (gear shaft 16 ) and comprising a lead screw 17 and a lead nut 18 with a gear rack 19 fixed thereon (mount not shown). The gear rack 19 can move with the spindle nut 18 reciprocating along the axis of the spindle 17.

The gear rack 19 extends beyond the side surface of the housing of the second gear unit and is in constant engagement with the sector 5 of the steering wheel gear.

The driving nut 18 shown in the drawings has on its inner surface a groove for rolling balls 20 on it during rotation of the screw screw 17, made in the form of channels 21, 22 isolated from each other in the form of two closed loops 180 ° offset from each other (see Fig. 3, 4). The number of such circuits is determined primarily by the load on the driving nut 18 and should not exceed three or four, since, as in a normal nut, subsequent turns practically do not work.

Each closed channel (a cross-section in the form of a semicircle with a radius slightly larger than the radius of the ball) consists of a thread channel and a channel for returning the balls to the beginning of the threaded turn. At the same time, to round the vertices of the thread of the lead screw 17, the ball return channel is made in the form of a smooth depression 23 (see Figure 3).

In the known designs of single-turn nuts with the movement of balls along a single-turn closed loop, elliptical or cylindrical inserts are usually used to create a ball return channel (see, for example, the article by MB Shkapenyuk. Calculation of the profile of the return channel of balls of a cylindrical insert in screw-nut gears rolling, magazine “Machine tools and tools”, p. 18, 19, 1976). Due to their insignificant transverse dimensions (since otherwise the nut will be excessively weakened), the ball return area is small, and the angle Фиг (see Figure 4) is large, so the resistance to rolling balls is also quite large.

Compared with these structures, in the proposed design of the driving nut of the block of steering drives, by virtue of ensuring its monolithicity by using the above technology for performing the internal groove, the length of the ball return section is increased, which is reflected in the limitation of the minimum value of the ball return channel length (at least 2 × t, where t is the thread lead of the running nut) and, in part, in the regulation of the minimum value of R (see Figure 4) of the radius of the center line of the groove in the area of the ball return channel (led R rank not less than 2 × r _m where _w r - the radius of the beads). When using these conditions, the transition from the end of the thread to its beginning becomes smoother and the resistance to rolling balls is significantly reduced.

The block of steering drives operates as follows. When a control signal is supplied to any of the actuators, the electric motor starts to rotate in the desired direction and transmits torque through two pairs of spur gears 13-16, and then through ball-screw and rack gears to the shaft 4 of the steering surface. The shaft 4 of the steering surface is rotated and through the gear sector 11 and gear 10 transmits rotation to the axis of the sensor 9 of the angular position of the steering surface, which gives a signal proportional to the angle of rotation.

The developed arrangement of the block of steering drives, in which the multi-stage gearbox is made in the form of two gears connected in series - the first, spur gear with the number of steps no more than two, and the second, made in the form of a ball screw, the spindle of which is mounted on the output shaft of the first gear , and the running nut is connected to the movable gear rack of the rack and pinion gear, it is possible to compactly place all the components of the block of steering drives around the gas duct of the engine and ensure a high adequate ratio.

The use of a monolithic design of the running nut with a simultaneous increase in the length and smoothness of the ball return channel made it possible to reduce its weight and reduce the rolling resistance of the balls, which ultimately increased the speed of the drive as a whole. In addition, the proposed design ensures its adaptability to the place of its placement and to the required loads - moments on the shaft of the steering surfaces.

Claims (2)

1. The block of steering drives containing actuators, each of which has a housing, a shaft of the steering surface, a high-speed electric motor and a gearbox including a cylindrical gear transmission, each actuating mechanism is additionally equipped with a movable gear rack and a gear sector engaged with it, fixed on the shaft of the steering surface, and the gearbox is supplemented with a ball screw transmission, in which the spindle nut is connected to the specified rail, and the spindle screw is mounted on the output shaft above cylindrical gears, and the number of steps of the latter does not exceed two. 2. The block of steering drives according to claim 1, characterized in that the ball screw nut is made in one piece with an internal groove for moving balls in the form of a thread channel and a ball return channel, in which the length of the ball return channel is less than the length of the thread channel, but more than 2 · T, where t is the lead thread pitch.

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