RU2525045C2 - Device to create flow in gases and fluids - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: set of inventions can be used as blowers, pumps and propulsors for aircraft, ships and submarines. Device comprises drive shaft, blades and housing composed by hollow parallelepiped with two flat walls connected by hemispherical walls with inlet and outlet. Inner walls with cut-outs connected with hemispherical walls are arranged along the edges of said inlet and outlet. Blades shafts are fitted in chains or belts running over drive and driven sprockets or pulleys fitted on the shaft and axle, respectively, inside hemispherical walls. Blade shafts extend via guide cut-outs of inner walls. The latter separate the flexible gearing from blades, their shafts extending through inner wall guide cut-outs to engage with bushes of chins or belts and having yokes with two teeth fitting in guide grooves made at flat wall inner side. Grooves nearby inlet and outlet are shaped top two parallel slots to merge nearby sprocket or pulley so that one slot results shaped to hemisphere.

EFFECT: simplified design, higher reliability, lower costs.

4 cl, 13 dwg

Description

The invention relates to devices that create a flow in gases and liquids, and can be used as fans, pumps, propulsors for aircraft, surface and underwater vessels.

A device for the movement of ships and aircraft SU 37507, containing flexible gears with attached blades. This device creates a stream along a flexible transmission, the area of which is equal to the area of one blade, the blade blade is short-lived and does not allow creating a high speed.

Known mover Chichigina RU 2089441 C1, containing blades mounted on a chain drive. The device creates a stream along the transmission, the area of which is equal to the area of the blade.

The closest analogue of the group of inventions is a device that creates a stream in gases and liquids, described in FR 2534636 A1, 04.20.1984. This device contains a drive shaft, blades, a housing made in the form of a hollow parallelepiped with flat side walls connected by semicylindrical walls, having inlet and outlet openings, along the edge of which internal walls with slots are installed. The walls combine semi-cylindrical walls, the axes of the blades are rotatably inserted into chains or belts, the latter are connected by driven and leading sprockets or pulleys, respectively, mounted on the shaft and axis inside the semi-cylindrical walls. The axis of the blades pass through the guide slots of the inner walls.

The disadvantages of this device are complexity, the presence of a large number of parts and assemblies, many grooves, bushings, rings and other rubbing surfaces. The guide rail has a three-dimensional configuration and is attached by brackets to the supporting wall. Flexible transmission is not separated from the blades by a wall. All this reduces the reliability and resource of the device, complicates operation, increases the cost of production and operation.

The task of the group of inventions is to simplify the design, increase reliability and resource, reduce the cost of production and operation.

The technical result according to the first embodiment of the invention is achieved by the fact that in a device that creates a flow in gases and liquids containing a drive shaft, blades, a housing made in the form of a hollow parallelepiped with two flat walls connected by semicylindrical walls, and having an inlet and an outlet, along the edge of the latter, internal walls with slots are installed, connected to the semi-cylindrical walls, the axis of the blades are rotatably inserted into chains or belts, the latter connect the driven and leading sprockets or pulleys, respectively mounted on the shaft and axis inside the half-cylindrical walls, the axis of the blades passing through the guide slots of the inner walls, according to the invention, the inner walls separate the flexible transmission from the blades, the axes of the latter pass directly through the guiding slots of the inner walls, enter simple bushings chains or belts, have at the ends of the forks with two teeth included in the guide grooves arranged on the inside of the flat walls, and at the input and output the holes, the grooves are in the form of two parallel grooves, merging in the area of sprockets or pulleys into one groove having the shape of a semicircle.

In this case, the guide groove at the inlet can be made external, and at the output hole internal, at the transition section and around the sprockets or pulleys, the guide groove can be made deeper than the internal groove at the inlet and the external groove at the outlet, and the front tooth plugs can be made longer than the rear.

The technical result according to the second embodiment of the invention is achieved by the fact that in a device creating a flow in gases and liquids containing a drive shaft, blades, a housing made in the form of a hollow parallelepiped with two flat walls connected by semicylindrical walls, and having an inlet and an outlet, along the edge of the latter, internal walls with slots are installed, connected to the semi-cylindrical walls, the axis of the blades are rotatably inserted into chains or belts, the latter connect the driven and leading sprockets or pulleys, respectively mounted on the shaft and axis inside the half-cylindrical walls, the axis of the blades passing through the guide slots of the inner walls, according to the invention, the inner walls separate the flexible transmission from the blades, the axes of the latter pass directly through the guiding slots of the inner walls, enter simple bushings chains or belts, have a lever at the ends with a tooth entering the guide groove, which at the inlet is made parallel to the axis of the slot and is inside, and at the outlet is outside.

The technical result according to the third embodiment of the invention is achieved by the fact that in a device that creates a flow in gases and liquids containing a drive shaft, blades, a housing made in the form of a hollow parallelepiped with two flat walls connected by semicylindrical walls, and having an inlet and an outlet, along the edge of the latter are installed internal walls with slots connected to the half-cylindrical walls, the drive sprockets are mounted on the shaft inside the half-cylindrical walls, according to the invention at the ends cylindrical washers are rigidly fixed to the blades, having two teeth on the outer surface that are opposite the edges of the blades, a long front and a short rear, included in the guide grooves arranged on the inner side of the flat walls at the bottom of the guide channel, the outer guide groove at the inlet opening, inner at of the outlet, at the transition section and around the sprockets, is made deeper than the inner groove at the inlet and the outer at the outlet. In the guide channel, cylindrical washers are tightly mounted with the possibility of longitudinal movement, and the channel is closed on the inside by walls having a slot in which the blades are placed with an appropriate inclination. The channel fits close to the drive sprocket, between the teeth of the latter there are washers, at the opposite end of the device the channel has the shape of a semicircle.

Figure 1 shows the device, a section aa; figure 2 is the same, view from the side of the inlet; figure 3 - part of the device, part I; figure 4 is the same, the driving pulley or sprocket with belt or chain, section II-II; figure 5 is the same, the guide grooves and forks, section III-III; figure 6 is a part of the device, section IV-IV; Fig.7 is the same, detail V-V, the guide grooves and forks;

on Fig - detail of the device, the guide groove with levers and teeth;

figure 9 is a detail of the device with guide channels, a drive sprocket and washers, section BB; figure 10 is the same, section bb; figure 11 is the same, section GG; Fig.12 is the same, section DD; Fig.13 is the same, a cross-section EE.

According to the first embodiment, the device consists of a housing 1, inside which there is a drive shaft 2 with driving pulleys or sprockets 3 and an axis 4 with driven pulleys or sprockets 5. The driving and driven pulleys or sprockets are covered by belts or chains 6 with blades 7 located in them.

The housing 1 is made in the form of a hollow parallelepiped with two side walls in the form of half cylinders, has an inlet 8 and an outlet 9 openings connected at the edges perpendicular to the semicylindrical walls by the inner walls 10, in which the guide slots 11 are arranged in the form of straight lines connected by semicircles. The walls 10 are attached to the side walls of the housing 12 using brackets (not shown) and have round holes 13. On the inner side of the wall 12 there are guide grooves 14 made at the inlet and outlet in the form of two parallel grooves that merge into one groove in the region pulleys or sprockets in the shape of a semicircle.

The drive shaft 2 is located in the holes 13 of the walls 10 and at one end exits the housing 1 outward through the wall 12. Two drive pulleys or sprockets 3 are rigidly fixed to it in the space between the walls 10 and 12.

The axis 4 is located in the holes 13 on the opposite side of the housing 1 and has two driven pulleys or sprockets 5. The leading 3 and driven 5 pulleys or sprockets are combined by a flexible transmission, belt or chain 6 with the possibility of mutual rotation.

The blades 7 have axles 15, which are rotatably mounted in bushings 16, rigidly mounted in belts or chains 6. In this case, the axles 15 pass through the slots 11 of the walls 10 and have guide forks 17 at the end, which enter with their teeth 18 into the guide grooves 14 of the walls 12. The blades 7 with the help of axes 15, slots 11, forks 17 and grooves 14 are installed so that their front edge at the inlet 8 is outside, and at the outlet 9 it is inside. Moreover, the width of the plug 17 is greater than the length of the transition section of the groove 14, a width of one groove, on the one hand, and two grooves, on the other. The teeth 18 are able to slide freely inside the guide grooves 14.

In this case, the guide groove at the inlet can be made external, and at the output hole internal, at the transition section and around the sprockets or pulleys, the guide groove can be made deeper than the internal groove at the inlet and the external groove at the outlet, and the front tooth plugs can be made longer than the rear.

The device operates as follows.

A rotational force is transmitted to the shaft 2 from the engine, which, through the driving pulleys or sprockets 3 and the belt or chain gear 6, rotates the driven pulleys or sprockets 5. In this case, the blades 7 are driven into translational motion, which create a gas (liquid) flow entering the inlet 8 and exiting through the outlet 9. When approaching the pulley or sprocket 3, 5, sliding along the tapering grooves 14, the forks 17 set the blade 7 in the position of the chord to the pulley or sprocket 3, 5, which is necessary to reduce the capture of gas (liquid) outside holes 8 and 9. N output from the pulley or sprocket 3, 5 fork slides along the expanding slots 14 and sets the blade chord position 7 of the desired tilt position.

When the blades move, the front long tooth slides along the deep groove, turning the fork and the blade to the required angle, and the short rear tooth in the working position slides along the shallow groove. As a result of this design, the forks and grooves reduce the possibility of beating of the teeth on the walls of the grooves in the transition sections.

According to the second embodiment, the device consists of a housing 1, inside which there is a drive shaft 2 with drive pulleys or sprockets 3 and an axis 4 with driven pulleys or sprockets 5. Drive and driven pulleys or sprockets are covered by belts or chains 6 with blades 7 located in them.

The housing 1 is made in the form of a hollow parallelepiped with two side walls in the form of half cylinders, has an inlet 8 and an outlet 9 openings connected at the edges perpendicular to the semicylindrical walls by the inner walls 10, in which the guide slots 11 are arranged in the form of straight lines connected by semicircles. The walls 10 are attached to the side walls of the housing 12 using brackets (not shown) and have round holes 13. On the inner side of the wall 12 have one guide groove 14, see Fig. 8.

The drive shaft 2 is located in the holes 13 of the walls 10 and at one end exits the housing 1 outward through the wall 12. Two drive pulleys or sprockets 3 are rigidly fixed to it in the space between the walls 10 and 12.

The axis 4 is located in the holes 13 on the opposite side of the housing 1 and has two driven pulleys or sprockets 5. The leading 3 and driven 5 pulleys or sprockets are combined by a flexible transmission, belt or chain 6 with the possibility of mutual rotation.

The blades 7 have axles 15, which are rotatably fixed in bushings 16, rigidly mounted in belts or chains 6. Moreover, the axles 15 pass through the slots 11 of the walls 10 and have a lever 19 with a tooth 20 included in the guide groove 14 (blades) 7 are conventionally shown by a dashed line, see Fig. 8). The guide groove 14 at the inlet 8 is parallel to the axis of the slot and is located inside, and at the outlet 9, outside.

The device operates as follows.

A rotational force is transmitted to the shaft 2 from the engine, which, through the driving pulleys or sprockets 3 and the belt or chain gear 6, rotates the driven pulleys or sprockets 5. In this case, the blades 7 are driven into translational motion, which create a gas (liquid) flow entering the inlet 8 and exiting through the outlet 9. The blades 7 with the help of the axes 15, the slots 11, the levers 19 with teeth 20, the slots 14, see Fig. 8, are installed at the inlet 8 with the leading edge outward, at the outlet 9 inward. On approach to the pulley or sprocket 3, 5, planes 7 are set to the chord position due to the approach of the groove 14 to the axis of the slot; at the exit from the pulley or sprocket 3, 5, the blades 7 are set from the position of the chord to the necessary inclined position due to the deviation of the groove 14 from the axis of the slot.

According to the third embodiment, the device consists of a housing 1 made in the form of a hollow parallelepiped with two side walls in the form of half cylinders, has an inlet 8 and an outlet 9 openings connected at the edges perpendicular to the semicylindrical walls by the inner walls 10, see Figs. 9-13, c which arranged the guide slots 11 in the form of straight lines connected by semicircles.

The drive shaft 2 is located in the holes 13 of the walls 10 and at one end exits the housing 1 outward through the wall 12. Two drive stars 3 are rigidly fixed to it in the space between the walls 10 and 12, see Figs. 9-13.

The blades 7 pass through the slots 11 and at the ends have rigidly cylindrical washers 21 located in the channels 22 located on the inner side of the flat side walls 12 of the housing 1. The outer surfaces of the washers 21 have two teeth, long 23, short 24, located against the edges of the blades 7 included in the guide grooves 14, located on the inner side of the flat side walls of the housing 12, at the bottom of the channel 22. The latter fit close to the drive sprocket 3, between the teeth of which washers 21. On the opposite side of the device channel Ala 22 have the shape of a semicircle. The washers 21 in the channels 22 are mounted tightly with the possibility of longitudinal movement and are closed on the inner side by a wall 10 in which the slots 11 are arranged. The latter at the inlet 8 and outlet 9 of the holes have such a width that the blades 7 in it are located at the required angle. In the transition section, at the sprockets 3 and at the opposite end of the device, the width of the slot 11 is reduced to the value necessary to place the blade 7 in the position of the chord to the circle. The guide grooves 14 are made at the inlet and outlet in the form of two parallel grooves, which merge into one groove in the area of the sprockets, having the shape of a semicircle.

The front tooth 23 is longer than the rear 24, and the guide groove 14 at the inlet is external, at the outlet is internal, at the transitional section and around the sprockets it is made deeper than the groove at the inlet is internal, and at the outlet.

The device operates as follows.

The rotational force from the shaft 2 is transmitted to the sprocket 3, which moves around the circumference of the washer 21, sliding along the channel 22, see Fig.9-13. Washers are in a closed channel and transmit movement to each other. The rotation and installation of the blades 7 at the required angle is due to the grooves 14 and the teeth 23 and 24. The moving blades 7 create a gas (liquid) flow directed from the inlet 8 to the outlet 9.

Claims (4)

1. A device that creates a flow in gases and liquids, containing a drive shaft, blades, a housing made in the form of a hollow parallelepiped with two flat walls connected by semicylindrical walls, having inlet and outlet openings, along the edge of the latter there are installed internal walls with slots connected to with semi-cylindrical walls, the axes of the blades are rotatably inserted into chains or belts, the latter are connected by driven and leading sprockets or pulleys, respectively, mounted on the shaft and axis inside the floor cylindrical walls, while the axis of the blades pass through the guide slots of the inner walls, characterized in that the inner walls separate the flexible transmission from the blades, the axes of the latter pass directly through the guide slots of the inner walls, enter simple bushings of chains or belts, have forks with two teeth included in the guide grooves arranged on the inner side of the flat walls, and at the inlet and outlet holes the grooves look like two parallel grooves merging in the area of asterisks or pulleys in one groove having the shape of a semicircle. 2. The device according to claim 1, characterized in that the guide groove at the inlet is external, at the outlet is internal, at the transition section and around sprockets or pulleys made deeper than the groove at the inlet is internal, at the outlet, and the front tooth of the fork is made longer than the rear. 3. A device that creates a flow in gases and liquids, containing a drive shaft, blades, a housing made in the form of a hollow parallelepiped with two flat walls connected by half-cylindrical walls, having inlet and outlet openings, along the edge of the latter there are installed internal walls with slots connected to with semi-cylindrical walls, the axes of the blades are rotatably inserted into chains or belts, the latter are connected by driven and leading sprockets or pulleys, respectively, mounted on the shaft and axis inside the floor cylindrical walls, while the axis of the blades pass through the guide slots of the inner walls, characterized in that the inner walls separate the flexible transmission from the blades, the axes of the latter pass directly through the guide slots of the inner walls, enter simple bushings of chains or belts, have a lever with a tooth at the ends included in the guide groove, which at the inlet is parallel to the axis of the slot and is inside, and at the outlet is outside. 4. A device that creates a flow in gases and liquids, containing a drive shaft, blades, a housing made in the form of a hollow parallelepiped with two flat walls connected by semi-cylindrical walls, having inlet and outlet openings, along the edge of the latter there are installed internal walls with slots connected to semi-cylindrical walls, the drive sprockets are mounted on the shaft inside the semi-cylindrical walls, characterized in that at the ends of the blades cylindrical washers are rigidly fixed, having two teeth on the outer surface a, located against the edges of the blades, a long front and short rear, included in the guide grooves, arranged on the inner side of the flat walls at the bottom of the guide channel, and the guide groove at the inlet is external, at the outlet is internal, at the transition section and around the sprockets made deeper than the groove at the inlet inner, the outer at the outlet, cylindrical washers are tightly mounted with the possibility of longitudinal movement, and the channel is closed with the inner the walls with a slot in which the blades are located with an appropriate slope, the channel fits close to the drive sprocket, washers are located between the teeth of the latter, and the channel has the shape of a semicircle at the opposite end of the device.

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