阅读说明：本技术 一种螺旋桨调速器选速机构 (Speed selecting mechanism of propeller speed regulator ) 是由 徐丁丁 郝丽 王金利 陈双双 王春慧 于 2020-11-22 设计创作，主要内容包括：本发明公开了一种螺旋桨调速器选速机构,选速止挡组件上部套在选速手柄和变径螺杆轴上部之间；上壳体组件上端大圆柱外端套有复位扭簧；变径螺杆轴中下部变细处过盈装配在上弹簧座内孔内；阀芯上端面设置有下弹簧座；变径螺杆轴直径变粗的下端位于插片底面下方,固定在上、下弹簧座上的弹簧穿在变径螺杆轴上；阀芯安装在阀套内,阀帽下端面的阀芯上间隙装配有离心块钩端顶接在其底面凸台上的轴承；阀芯外圆上设置有凸肩,凸肩上下的阀芯外圆上设置有油槽Ⅰ和油槽Ⅱ；阀套上设置有与油槽Ⅰ连通的进高压油口、出高压油口和与油槽Ⅱ连通的回油口。使用本发明的螺旋桨转速在一定范围内无级可调,能保证在选定所需要的螺旋桨转速下可靠运行。(The invention discloses a speed selection mechanism of a propeller speed regulator, wherein the upper part of a speed selection stop assembly is sleeved between a speed selection handle and the upper part of a reducing screw shaft; the outer end of the large cylinder at the upper end of the upper shell component is sleeved with a reset torsion spring; the tapered part at the middle lower part of the reducing screw shaft is assembled in the inner hole of the upper spring seat in an interference manner; a lower spring seat is arranged on the upper end surface of the valve core; the diameter-thickened lower end of the reducing screw shaft is positioned below the bottom surface of the insert, and the spring fixed on the upper spring seat and the lower spring seat penetrates through the reducing screw shaft; the valve core is arranged in the valve sleeve, and a bearing with a centrifugal block hook end butted on a boss on the bottom surface of the valve core is assembled in a gap on the valve core on the lower end surface of the valve cap; a convex shoulder is arranged on the outer circle of the valve core, and an oil groove I and an oil groove II are arranged on the outer circle of the valve core above and below the convex shoulder; and the valve sleeve is provided with a high-pressure oil inlet and a high-pressure oil outlet which are communicated with the oil groove I and an oil return port which is communicated with the oil groove II. The rotating speed of the propeller is steplessly adjustable within a certain range, and reliable operation can be ensured under the condition of selecting the required rotating speed of the propeller.)

1. A speed selection mechanism of a propeller speed regulator is characterized in that: the variable-diameter screw type speed-changing control device comprises an upper shell assembly, a lower shell assembly, a bottom plate, a speed-selecting handle, a speed-selecting stop assembly, a reset torsion spring, a maximum speed stop piece, a feathering stop piece, variable-diameter screw shafts, an upper spring seat, a lower spring seat, a spring, a bearing, a centrifugal counterweight assembly, a valve sleeve, a valve core bonnet assembly and an inserting piece, wherein the variable-diameter screw shafts, the upper spring seat, the lower spring seat; one end of the speed selection handle is provided with a spline hole, and the other end of the speed selection handle is provided with a connecting structure with the propeller rod; the upper part of the speed selection stop assembly is sleeved between a spline hole of the speed selection handle and the upper part of the reducing screw shaft, an external spline of the speed selection stop assembly is connected with an internal spline of the speed selection handle, an internal spline of the speed selection stop assembly is connected with an external spline of the upper part of the reducing screw shaft, and a limiting flanging is arranged on the internal spline; the maximum speed stop piece and the feathering stop piece are respectively fixed on two small cylinders on the upper end surface of the upper shell assembly; the outer end of the large cylinder at the upper end of the upper shell component is sleeved with a reset torsion spring of which the upper end is fixed on the speed selection stop component and the lower end is fixed on one small cylinder; the speed-selecting stop assembly limits the flanging to rotate between the maximum speed stop piece and the feathering stop piece; the upper part of the reducing screw shaft is sleeved and connected with a threaded hole formed in a large cylinder at the upper end of the upper shell assembly in a threaded sealing manner, and the thinned part at the middle lower part is assembled in an inner hole of the upper spring seat in an interference manner; the valve core and valve bonnet assembly comprises a valve core and a valve bonnet integrated with the upper end of the valve core, an integrated lower spring seat is arranged on the outer circle of the upper end surface of the valve core, a circle of groove is formed on the inner circle of the lower spring seat, and the inserting piece is arranged in the groove and connected with the inner circle key groove of the lower spring seat; the lower end part of the reducing screw shaft is sleeved in the insert in a micro-clearance manner, the lower end with the thickened diameter is positioned below the insert, and the springs fixed on the upper spring seat and the lower spring seat penetrate through the reducing screw shaft; the valve core of the valve core bonnet assembly is arranged in the valve sleeve, and a bearing with a bottom surface boss is assembled in a gap on the valve core on the lower end surface of the valve bonnet; the centrifugal counterweight component comprising a centrifugal block is positioned in an inner cavity at the upper end of the lower shell component, the lower end of the centrifugal counterweight component is clamped on an excircle at the upper end of the valve sleeve through a spline sleeve, and the hook end of the centrifugal block is abutted on a bottom boss of the bearing; the valve sleeve micro-gap is assembled in the mounting hole of the lower shell component, and the lower end of the valve sleeve micro-gap is provided with a connecting mechanism with an engine; a convex shoulder is arranged on the outer circle of the valve core, and an oil groove I and an oil groove II are arranged on the outer circle of the valve core above and below the convex shoulder; the valve sleeve is provided with a high-pressure oil inlet and a high-pressure oil outlet which are communicated with the oil groove I and an oil return port which is communicated with the oil groove II; when the propeller normally works at the selected balance rotating speed, the convex shoulder blocks the high-pressure oil outlet on the valve sleeve; when the rotating speed of the propeller is smaller than the selected balance rotating speed, the convex shoulder is arranged at the lower end of the high-pressure oil outlet, and the high-pressure oil outlet is communicated with the high-pressure oil inlet; when the rotating speed of the propeller is higher than the selected balance rotating speed, the convex shoulder is arranged at the upper end of the high-pressure oil outlet, and the high-pressure oil outlet is communicated with the oil return opening.

2. The propeller governor speed selection mechanism of claim 1, wherein: the peripheral wall of one end of the speed selecting handle with the internal spline hole is disconnected, a through hole and a threaded hole are formed in two end walls of the disconnected peripheral wall, and the through hole and the threaded hole are fixed together through a spherical cylindrical head screw I with a hole and a light spring washer I.

3. A propeller governor speed selection mechanism according to claim 1 or 2, characterized in that: the peripheral wall of the speed-selecting stop assembly is disconnected, a through hole and a threaded hole are formed in two end walls of the disconnected peripheral wall, and the two through holes and the threaded hole are fixed together through a spherical cylindrical head screw II with a hole and a light spring washer II.

4. The propeller governor speed selection mechanism of claim 3, wherein: the centrifugal counterweight component comprises a support, two centrifugal blocks and a spiral retainer ring which are correspondingly distributed; the lower end of the support is clamped on the excircle of the upper end part of the valve sleeve through a spline sleeve; two centrifugal blocks are assembled on the support through a shaft and a bearing clearance respectively, a circle of spiral retainer ring is clamped and fixed on the outer wall of the upper end of the support, and two ends of the shaft are abutted on the inner end wall of the spiral retainer ring; the hook end which is abutted on the boss at the bottom surface of the bearing is provided with an arc surface.

5. A propeller governor speed selection mechanism according to claim 1 or 2, characterized in that: the centrifugal counterweight component comprises a support, two centrifugal blocks and a spiral retainer ring which are correspondingly distributed; the lower end of the support is clamped on the excircle of the upper end part of the valve sleeve through a spline sleeve; two centrifugal blocks are assembled on the support through a shaft and a bearing clearance respectively, a circle of spiral retainer ring is clamped and fixed on the outer wall of the upper end of the support, and two ends of the shaft are abutted on the inner end wall of the spiral retainer ring; the hook end which is abutted on the boss at the bottom surface of the bearing is provided with an arc surface.

Technical Field

The invention relates to a speed selection mechanism of a propeller speed regulator.

Background

The higher the rotating speed of the propeller is, the greater the generated thrust is, and the greater the thrust is required when the airplane takes off, and the less the thrust is required when the airplane flies in a cruise plane. The existing propeller speed regulators only have one balance rotating speed, and the rotating speed is the same as that of the existing propeller speed regulators when the existing propeller speed regulators are in constant balance rotating speed by balancing the centrifugal force of a balancing weight and the spring force, so that the existing propeller speed regulators cannot be selected, and the existing propeller speed regulators can stably and efficiently complete the takeoff task when the balance rotating speed is set to be higher under the condition of completing the takeoff task, so that an engine is not easily damaged; therefore, a proper balance rotating speed is selected according to the actual condition of the airplane, but no matter how, as long as the balance rotating speed meeting the take-off requirement can be met, a large amount of fuel oil is wasted during the cruise flight, so that the requirement that the propeller speed regulator which can select the speed and can realize the adjustable and controllable balance rotating speed is required to ensure that the thrust of the propeller is high when the airplane takes off and the thrust of the propeller is low when the airplane cruises flight. The flight of the airplane is ensured by adjusting the rotating speed and the blade angle of the propeller, the propeller only has one high-efficiency blade angle, the working efficiency of the propeller is lower when the propeller works in other blade angle states, the blade angle needs to be changed to absorb the power of an engine in order to keep the rotating speed of the propeller at a fixed rotating speed under the condition that the flight working condition is changed, the working efficiency of the propeller is lower, and in order to always maintain the working efficiency of the propeller at a higher efficiency, a speed-selectable controllable propeller speed regulator capable of realizing adjustable and controllable balance rotating speed is urgently needed to be researched so that the blade angle is always kept at the position of the high-efficiency blade angle.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a propeller speed regulator speed selection mechanism which has a relatively simple structure, is convenient to install and disassemble, has a speed selection function, can realize adjustable and controllable balance rotating speed, and ensures that the rotating speed of a propeller using the speed selection mechanism can be steplessly adjusted within a certain range and can reliably run under the condition of selecting the required rotating speed of the propeller.

In order to achieve the purpose, the technical solution of the invention is as follows: a speed selection mechanism of a propeller speed regulator comprises an upper shell assembly, a lower shell assembly, a bottom plate, a speed selection handle, a speed selection stop assembly, a reset torsion spring, a maximum speed stop piece, a feathering stop piece, a reducing screw shaft, an upper spring seat, a lower spring seat, a spring, a bearing, a centrifugal counterweight assembly, a valve sleeve, a valve core bonnet assembly and an inserting piece, wherein the reducing screw shaft, the upper spring seat, the lower spring seat, the spring, the bearing, the centrifugal counterweight assembly, the valve sleeve, the; one end of the speed selection handle is provided with a spline hole, and the other end of the speed selection handle is provided with a connecting structure with the propeller rod; the upper part of the speed selection stop assembly is sleeved between a spline hole of the speed selection handle and the upper part of the reducing screw shaft, an external spline of the speed selection stop assembly is connected with an internal spline of the speed selection handle, an internal spline of the speed selection stop assembly is connected with an external spline of the upper part of the reducing screw shaft, and a limiting flanging is arranged on the internal spline; the maximum speed stop piece and the feathering stop piece are respectively fixed on two small cylinders on the upper end surface of the upper shell assembly; the outer end of the large cylinder at the upper end of the upper shell component is sleeved with a reset torsion spring of which the upper end is fixed on the speed selection stop component and the lower end is fixed on one small cylinder; the speed-selecting stop assembly limits the flanging to rotate between the maximum speed stop piece and the feathering stop piece; the upper part of the reducing screw shaft is sleeved and connected with a threaded hole formed in a large cylinder at the upper end of the upper shell assembly in a threaded sealing manner, and the thinned part at the middle lower part is assembled in an inner hole of the upper spring seat in an interference manner; the valve core and valve bonnet assembly comprises a valve core and a valve bonnet integrated with the upper end of the valve core, an integrated lower spring seat is arranged on the outer circle of the upper end surface of the valve core, a circle of groove is formed on the inner circle of the lower spring seat, and the inserting piece is arranged in the groove and connected with the inner circle key groove of the lower spring seat; the lower end part of the reducing screw shaft is sleeved in the insert in a micro-clearance manner, the lower end with the thickened diameter is positioned below the insert, and the springs fixed on the upper spring seat and the lower spring seat penetrate through the reducing screw shaft; the valve core of the valve core bonnet assembly is arranged in the valve sleeve, and a bearing with a bottom surface boss is assembled in a gap on the valve core on the lower end surface of the valve bonnet; the centrifugal counterweight component comprising a centrifugal block is positioned in an inner cavity at the upper end of the lower shell component, the lower end of the centrifugal counterweight component is clamped on an excircle at the upper end of the valve sleeve through a spline sleeve, and the hook end of the centrifugal block is abutted on a bottom boss of the bearing; the valve sleeve micro-gap is assembled in the mounting hole of the lower shell component, and the lower end of the valve sleeve micro-gap is provided with a connecting mechanism with an engine; a convex shoulder is arranged on the outer circle of the valve core, and an oil groove I and an oil groove II are arranged on the outer circle of the valve core above and below the convex shoulder; the valve sleeve is provided with a high-pressure oil inlet and a high-pressure oil outlet which are communicated with the oil groove I and an oil return port which is communicated with the oil groove II; when the propeller normally works at the selected balance rotating speed, the convex shoulder blocks the high-pressure oil outlet on the valve sleeve; when the rotating speed of the propeller is smaller than the selected balance rotating speed, the convex shoulder is arranged at the lower end of the high-pressure oil outlet, and the high-pressure oil outlet is communicated with the high-pressure oil inlet; when the rotating speed of the propeller is higher than the selected balance rotating speed, the convex shoulder is arranged at the upper end of the high-pressure oil outlet, and the high-pressure oil outlet is communicated with the oil return opening.

Further preferably, the peripheral wall of one end of the speed selecting handle with the internal spline hole is disconnected, a through hole and a threaded hole are formed in two end walls of the disconnected peripheral wall, and the through hole and the threaded hole are fixed together through a spherical cylindrical head screw I with a hole and a light spring washer I. This structure is easy to mount and dismount.

Further preferably, the peripheral wall of the speed selection stop assembly is broken, a through hole and a threaded hole are formed in two end walls of the broken peripheral wall, and the through hole and the threaded hole are fixed together through a spherical cylindrical head screw II with a hole and a light spring washer II. This structure is easy to mount and dismount.

Further preferably, the centrifugal weight component comprises a support, two centrifugal blocks and a spiral retainer ring which are distributed correspondingly; the lower end of the support is clamped on the excircle of the upper end part of the valve sleeve through a spline sleeve; two centrifugal blocks are assembled on the support through a shaft and a bearing clearance respectively, a circle of spiral retainer ring is clamped and fixed on the outer wall of the upper end of the support, and two ends of the shaft are abutted on the inner end wall of the spiral retainer ring; the hook end which is abutted on the boss at the bottom surface of the bearing is provided with an arc surface. The existence of spiral retaining ring makes the axle be difficult for deviating from, and structural reliability is high, and the circular arc face has reduced the friction of the bottom surface boss of bearing, has increased life.

The speed selecting handle on the invention is operated by a propeller rod on an airplane, the position of a reducing screw rod shaft is changed, and the pressure of a spring is further changed, so that the propeller can work at different balance rotating speeds, a speed regulator is driven to rotate by a transmission mechanism of an engine, at the moment, the elasticity of the spring and the axial component force exerted on a valve core bonnet assembly by a centrifugal force generated by the rotation of a centrifugal block of a centrifugal counterweight assembly are balanced, and a shoulder of a valve core just blocks an oil path leading to the propeller cavity, so that the valve core works at a balance rotating speed. When the speed regulator exceeds the balance rotating speed, the centrifugal block is thrown upwards to overcome the elasticity of the spring to lift the valve core bonnet assembly, the high-pressure oil outlet is communicated with the oil return opening, high-pressure oil in the propeller cavity is divided into the low-pressure oil groove, the propeller pitch is increased, the load is increased, the rotating speed of the propeller is reduced until the valve core bonnet assembly descends, the axial component force of the elasticity of the spring and the centrifugal force is balanced, the rotating speed returns to the selected balance rotating speed, and the shoulder of the valve core blocks the lubricating oil path leading to the propeller cavity again. When the speed regulator is lower than the balance rotating speed, the spring elasticity overcomes the axial component force of the centrifugal block, the valve core bonnet assembly descends, the high-pressure oil outlet is communicated with the high-pressure oil inlet, high-pressure oil enters the propeller cavity, the propeller pitch is reduced, the load is reduced, the rotating speed of the propeller is increased until the valve core bonnet assembly ascends, the spring elasticity and the axial component force of the centrifugal force are balanced, the rotating speed returns to the selected balance rotating speed, and the oil path leading to the propeller cavity is blocked by the convex shoulder of the valve core again.

In a word, the invention has the advantages of relatively simple structure, convenient assembly and disassembly, speed selection and realization of adjustable and controllable balance rotating speed. The rotating speed of the propeller is steplessly adjustable within a certain range, so that reliable operation can be ensured under the condition of selecting the required rotating speed of the propeller, and the airplane can fly more safely and reliably.

Drawings

FIG. 1 is a schematic view of the mounting structure of the present invention with a governor at balanced rotational speed;

FIG. 2 is a schematic view of the mounting structure of the present invention with the governor gear pump not rotating at a higher rotational speed;

FIG. 3 is a schematic view of the mounting structure of the present invention with the governor gear pump not rotating at a lower rotational speed;

FIG. 4 is a top view of the governor of the present invention installed;

FIG. 5 is a top view of a flyweight assembly of the present invention.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

As shown in fig. 1 to 5, the present embodiment includes upper and lower housing assemblies 1, 9, a bottom plate 16, a speed selection handle 3, a speed selection stop assembly 5, a return torsion spring 2, a maximum speed stop member 14, a feathering stop member 15, a variable diameter screw shaft 4, upper and lower spring seats 13, 17, a spring 6, a bearing 7, a centrifugal weight assembly 8, a valve housing 10, a valve core bonnet assembly 11 and a plug 12, which are located in inner cavities of the upper and lower housing assemblies 1, 9 and the bottom plate 16. One end of the speed-selecting handle 3 is provided with a splined hole, and the other end is provided with a connecting structure with the propeller rod. Preferably, the speed-selecting handle 3 has a broken peripheral wall at one end with an internal spline hole, a through hole and a threaded hole are arranged on two end walls of the broken peripheral wall, and the through hole and the threaded hole are fixed together by a spherical cylindrical head screw I28 with a hole and a light spring washer I27. The upper part of the speed-selecting stop component 5 is sleeved between the splined hole of the speed-selecting handle 3 and the upper part of the reducing screw shaft 4, the external spline of the speed-selecting stop component is connected with the internal spline of the speed-selecting handle 5, the internal spline of the speed-selecting stop component is connected with the external spline of the upper part of the reducing screw shaft 4, and the speed-selecting stop component is provided with a limiting flanging. Preferably, the peripheral wall of the speed-selecting stop assembly 5 is broken, and a through hole and a threaded hole are formed in two end walls of the broken peripheral wall, and the two are fixed together by a spherical cap screw II 29 with a hole and a light spring washer II 30. The maximum speed stop piece 14 and the feathering stop piece 15 are respectively fixed on two small cylinders on the upper end surface of the upper shell assembly; the outer end of the big cylinder at the upper end of the upper shell component 1 is sleeved with a reset torsion spring 2, the upper end of which is fixed on the speed-selecting stop component 5, and the lower end of which is fixed on one of the small cylinders. The speed stop assembly 5 limits the turn-up from rotating between the maximum speed stop 14 and the feathering stop 15. The upper part of the reducing screw shaft 4 is sleeved and hermetically connected in a threaded hole formed in a large cylinder at the upper end of the upper shell assembly 1 by adopting a trapezoidal thread, and the thinning part of the middle lower part is in interference fit in an inner hole of the upper spring seat 13. The valve core and bonnet assembly 11 comprises a valve core 19 and a bonnet 18 integrated with the upper end of the valve core 19, an integrated lower spring seat 17 is arranged on the outer circle of the upper end face of the valve core 19, a circle of groove is formed on the inner circle of the lower spring seat 17, and the inserting piece 12 is arranged in the groove and connected with an inner circular key groove of the lower spring seat 17. The lower end of the valve housing 10 is provided with a spline connected with an output shaft of the engine. The lower end part of the reducing screw shaft 4 is sleeved in the insert 12 in a micro-clearance way, and the lower end with the thickened diameter is positioned below the insert 12. The spring 6 fixed on the upper and lower spring seats 13, 17 is threaded on the reducing screw shaft 4. The valve core 19 of the valve core bonnet assembly is arranged in the valve sleeve 10, and the bearing 7 with a bottom surface boss is arranged on the valve core 19 on the lower end surface of the valve bonnet 18 in a clearance mode. The centrifugal counterweight component 8 comprising a centrifugal block is positioned in the inner cavity at the upper end of the lower shell component 9, the lower end of the centrifugal counterweight component is clamped on the excircle at the upper end of the valve sleeve 10 through a spline sleeve, and the hook end of the centrifugal block is abutted on the bottom boss of the bearing 7. Preferably, the centrifugal weight assembly comprises a support 32, two centrifugal blocks 33 and a spiral retainer ring 31 which are distributed correspondingly; the lower end of the support 32 is clamped on the excircle of the upper end part of the valve sleeve 10 through a spline sleeve; two centrifugal blocks 33 are respectively assembled on a support 32 through a shaft 35, a bearing 36 and a gasket 34 in a clearance mode, a circle of spiral retainer ring 31 is fixedly clamped on the outer wall of the upper end of the support 32, and two ends of the shaft 35 are abutted to the inner end wall of the spiral retainer ring 31; the hook end which is abutted on the boss at the bottom surface of the bearing 7 is provided with an arc surface. The valve sleeve 10 is micro-gap fitted in the mounting hole of the lower housing assembly 9, and its lower end is splined to the engine. A convex shoulder 20 is arranged on the outer circle of the valve core 19, and an oil groove I22 and an oil groove II 24 are arranged on the outer circle of the valve core 19 above and below the convex shoulder 20. The valve housing 10 is provided with a high pressure oil inlet 26 communicated with the oil groove I22, a high pressure oil outlet 23 and an oil return 25 communicated with the oil groove II 24. When the propeller normally works at the selected balance rotating speed, the convex shoulder 20 blocks the high-pressure oil outlet 23 on the valve sleeve 10; when the rotating speed of the propeller is smaller than the selected balance rotating speed, the convex shoulder 20 is arranged at the lower end of the high-pressure oil outlet 23, the high-pressure oil outlet 23 is communicated with the high-pressure oil inlet 26, high-pressure oil is fed into the propeller, the rotating speed is increased, and the convex shoulder 20 blocks the high-pressure oil outlet 23 on the valve sleeve 10 until the propeller normally works at the selected balance rotating speed. When the rotating speed of the propeller is higher than the selected balance rotating speed, the convex shoulder 20 is arranged at the upper end of the high-pressure oil outlet 23, the high-pressure oil outlet 23 is communicated with the oil return port 25, the propeller returns oil, the rotating speed is reduced, and the convex shoulder 20 blocks the high-pressure oil outlet 23 on the valve sleeve 10 until the selected balance rotating speed is reached to normally work. And 21 is a high-pressure oil inlet hole in the lower housing assembly 9 communicated with the high-pressure oil inlet 26.

There are, of course, many other embodiments of the invention and modifications and variations of this invention that will be obvious to those skilled in the art may be made without departing from the spirit and scope of the invention, but it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention.