RU2316683C1 - Separator for roller bearing - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: separator comprises housing with sockets and cross-pieces between them and provided with hollows from the side of free face, flange connected with the housing over the surface of the hollows, joining members set in the openings in the housing and flange, and stops made of the heads of the joining members. One of the surfaces of the hollows is perpendicular to the axes of the sockets. The rods of the joining members are conjugated with the surfaces of the coaxial openings in the housing. The part of the joining members that abuts against the setting section has a reduced diameter. The hollows are V-shaped.

EFFECT: expanded functional capabilities.

4 cl, 1 dwg

Description

The invention relates to the field of engineering, and in particular to rolling bearings (PC), working in the nodes of machines and mechanisms.

A known separator of a standard roller PC, comprising a comb-shaped housing with sockets and jumpers between them, having L-shaped recesses from the free end of the jumpers, a separator washer (flange) connected to the housing along the surfaces of the recesses, connecting elements made in the form of rivets and placed in the coaxial holes of the housing and the flange and stoppers, made in the form of locking heads of rivets, in which the axis of the coaxial holes of the housing and the flange are located in jumpers on a surface matching or equivalent the identical surface of the location of the axes of the nests, the surfaces of the ends of the separator are perpendicular to the coaxial holes of the housing and the flange, the surfaces of the recesses are turned towards the surfaces of the flange connected to them, which have a uniform shape with the surfaces of the recesses and are connected to them along the transitional fit, one of the surfaces of the recess is perpendicular to the axes nests, and the other is made cylindrical with an axis coinciding with the axis of the separator (1).

Due to the low functionality of their design, such separators cannot be used in other types of PCs, for example, in roller conical PCs. This is due to the fact that the separator of roller conical PCs must have conical slots for accommodating conical rollers, while the axis of the coaxial holes in the housing and the flange must be at an angle to the axis of the separator, which makes it difficult to assemble the separator as a whole using rivets (connecting elements )

There are a number of technical solutions aimed at increasing the durability of the PC. For example, such as a metal stamped tapered roller bearing cage in the form of a hollow conical housing with outer and inner conical side surfaces and with large and small bases having flat ends, containing a large circular jumper and a small circular junction forming an inner cylindrical surface located in the plane of the small base bottom hole, and longitudinal jumpers uniformly spaced around the circumference connecting them together, forming together windows for the roller ; the radial section of the small circular jumper is made in the form of a trapezoid, the outer side of which coincides with the outer lateral conical surface of the body, and the inner side is at an acute angle to the base of the trapezoid, which coincides with the end face of the small base (2).

The disadvantage of this separator roller conical PC is that it is made by stamping, in which it is difficult to achieve high accuracy parameters required from the separators in the roller PC. In addition, this design of the separator is used in PCs of relatively small sizes.

The closest technical solution aimed at increasing the durability of the PC, adopted as a prototype, is a separator, in which the mounting unit of the separator body of the PC with a flange is used, containing a connecting rivet located in the coaxial holes of the housing and the flange, the rivet shaft, at a length of 1, 5 ... 3.0 thickness of the flange, from the head it is mated with the surfaces of the holes in the flange and the housing according to the press fit, while the part of the rivet shaft adjacent to the landing section can be made with a smaller diameter ohm or rivet holes can be formed stepwise, wherein the seating section has a smaller diameter (3).

The disadvantage of such a roller PC separator is that its design is difficult to implement in other PCs due to the low functionality, for example, in conical roller PCs. Due to the fact that in the conical roller PC the axes of the coaxial openings of the housing and the flange are inclined to the separator axis at a certain angle, the separator is assembled in one piece - riveting of the separator must be done at the same angle to the separator axis. Therefore, the assembly of the separator roller conical PC in one piece by riveting the connecting elements is problematic.

The aim of the invention is to increase the durability of the PC by expanding the functionality of the design of the separator.

The specified goal is achieved as follows.

1. The separator roller PC containing a comb-shaped housing with slots for rollers and jumpers between them, having recesses on the free end side of the jumpers, a flange connected to the housing along the surfaces of the recesses, connecting elements placed in the coaxial holes of the housing and the flange and stoppers made in the form of locking heads of connecting elements, in which the axes of the coaxial holes of the housing and the flange are located in jumpers on a surface of a matching or equidistant surface of the location of the axes of the nests, the surface These separator ends are located perpendicular to the coaxial openings of the housing and the flange, the surface of the recesses are turned towards the surfaces of the flange connected to them, which have a uniform shape with the surfaces of the recesses and are connected to them along the landing, one of the surfaces of the recesses is perpendicular to the axis of the nests, the rods of the connecting elements are mated to the surfaces of the coaxial holes of the housing and the flange on the landings on the landing sections, the part of the rod of the connecting elements adjacent to the landing section is made with smaller diameter, and / or coaxial holes of the housing and / or flange are made stepped with landing sections having a smaller diameter, characterized in that:

1.1. The recesses are V-shaped with any acceptable angle between its surfaces, for example, less than a right angle, or equal to a right angle, or more than a right angle.

1.2. One of the surfaces of the recesses is made conical with a cone angle of not more than 10 degrees and with a vertex on the axis of the separator located at any of the ends of the separator.

1.3. The surface of the recesses is performed from the side of the inner and / or outer diameters of the separator.

1.4. The surfaces of the recesses are connected to the surfaces of the flange to fit with a slight guaranteed tightness, or at least without clearance.

1.5. The connecting elements are installed in the coaxial holes of the housing and the flange for transitional fit (with relatively small interference or clearance) and / or tight fit.

2. The separator roller PC according to claim 1, characterized in that:

2.1. At the landing sections of the coaxial holes of the housing and / or flange, threads are made.

2.2. On the landing sections of the connecting elements, a thread is made corresponding to the thread of the coaxial holes of the housing and / or flange.

2.3. The dimensions of the landing sections are set within the cross-section of the separator with a radial plane.

2.4. The connecting elements are in the form of any technically feasible threaded parts, for example a bolt, or screw, or studs with nut, or tapered pin with thread.

2.5. The stoppers perform any technically feasible form in one piece with the connecting elements and / or the separator, or separately from them, and are connected to the separator and connecting elements with the possibility of disassembling the separator or without it, for example, in the form of welds between the connecting elements and the separator, or coinage of the connecting elements on the separator, or in the form of annular grooves on the connecting elements and lock washers or rings, or in the form of radial holes in the connecting elements and cotter pins, and whether in the form of radial holes in the separator and connecting elements and pins.

3. The separator roller PC according to claim 1, characterized in that the axis of the coaxial holes of the housing and the flange are positioned at an angle to the axis of the nests for the rollers or between the jumpers and combined with the axes of the nests for the rollers.

4. The separator roller PC according to claim 2, characterized in that the axis of the coaxial holes of the housing and the flange are angled to the axis of the nests for the rollers or between the jumpers and combined with the axes of the nests for the rollers.

5. The separator roller PC according to claim 1, or claim 2, or claim 3, or claim 4, characterized in that:

5.1. The outer and inner surfaces of the separator are of any technically feasible form, for example, conical, the top of which is located at the intersection of the axis of the nests for the rollers, or cylindrical, or stepped, or another shape, or combined, consisting of conical, cylindrical and other surfaces.

5.2. The ends of the separator are arranged perpendicularly or at some angle to the axis of the separator, or are made up of at least two surfaces, one of which is perpendicular to the axis of the separator, and the other perpendicular to the axes of the coaxial openings of the housing and the flange.

5.3. Coaxial openings of the housing are carried out in the jumpers through or blind, open towards the flange, or the axis of the coaxial openings of the housing and the flange are located between the jumpers and combine with the axes of the roller sockets.

5.4. The stoppers are made in the form of parts of a simple shape, for example, with a thin-walled disk with a hole, or a pin made of wire, or a cotter pin, or a roving washer.

5.5. The stoppers are fixed motionless on the surfaces of the connecting elements and the separator.

The above differences of the claimed device from the design of the prototype are necessary to achieve this goal and are explained by the following:

1.1) The recesses are V-shaped with any acceptable angle between its surfaces in order to ensure reliable connection of the jumpers with the flange. Moreover, the angle between its surfaces can be both less than a right angle, and more than a right angle, or equal to a right angle, since the angle does not affect the connectivity of the jumpers and flange.

1.2) One of the surfaces of the recesses is made conical with a cone angle of not more than 10 degrees and with a vertex on the separator axis located at any of the ends of the separator in order to ensure a guaranteed interference fit, or at least fit without a gap, in the connection of the jumpers to the flange .

1.3) The surfaces of the recesses are made from the side of the inner and / or outer diameters of the separator in order to ensure the manufacturability of the design. This is due to the fact that depending on the type of PC in which the separator is supposed to be used, an appropriate arrangement of the recesses, including the recesses located simultaneously on the side of the inner and outer diameters of the separator, is necessary.

1.4) The surfaces of the recesses are connected to the surfaces of the flange by landing with a slight guaranteed tightness or, at least, without a gap in order to ensure a reliable connection of these parts, eliminating their mutual movement during operation. In this case, the minimum allowable interference fit can be zero, since it guarantees the absence of clearance in the connection and eliminates the mutual movement of parts. The specific preload value is assigned during the design development, depending on the design task.

1.5) The connecting elements are installed in the coaxial holes of the body and flange along transitional fittings (with a relatively small interference fit or clearance) and / or along tight fit fittings in order to optimize stresses in this fit. This is due to the fact that significant stresses in this landing lead to breakdown of the separator. A slight clearance in this fit improves the collector of the separator and practically does not affect the durability of the PC. In this case, the fit in the coaxial holes of the housing and the flange can be the same or different. The decision on the purpose of a particular landing is made in the design process, depending on the task.

2.1) On the landing sections of the coaxial holes of the housing and / or flange, threads are made in order to provide a more reliable connection of the separator parts as a whole. In this case, the thread can be made only in the coaxial holes of the housing or only in the coaxial holes of the flange. In addition, the thread can be made in the coaxial holes of both parts, for example, in the part of the coaxial holes of the housing and in the part of the coaxial holes of the flange.

2.2) On the landing sections of the connecting elements, a thread is made corresponding to the thread of the coaxial holes of the housing and / or flange in order to provide a more reliable connection of the separator parts as a whole. The thread can be made corresponding to the thread, performed in the coaxial holes of the housing during the interaction of the connecting elements with its coaxial holes. The thread can be made with the corresponding thread, performed in the coaxial holes of the flange during the interaction of the connecting elements with its coaxial holes. If there are various threads in the coaxial holes of the housing and the flange, the threads on the connecting elements are made corresponding to the threads of the separator part with which they interact. In this case, part of the connecting elements may be with a thread corresponding to the thread of the coaxial holes of the housing, and part of the corresponding thread of the coaxial holes of the flange.

2.3) The dimensions of the landing sections are set within the separator’s cross section with a radial plane in order to ensure equal reliability of all parts and structural elements, based on the structural and strength requirements for the connection and the assembled separator as a whole.

2.4) The connecting elements are made in the form of any technically feasible threaded parts in order to ensure their manufacturability and relatively low cost. For example, the connecting elements are in the form of a bolt, or screw, or studs with nut, or tapered pin with thread, or any other parts. Moreover, the shape of the connecting elements is not so important - the main thing is that they provide a reliable connection of the separator parts.

2.5) The stoppers perform any technically feasible form in one piece with the connecting elements and / or the separator or separately from them and connect to the separator and connecting elements with the possibility of disassembling the separator or without it in order to ensure the manufacturability of both the stoppers and other parts separator, and the process of assembling the separator as a whole. The stops can be made in one piece with connecting elements in the form of grooves or beads for minting along the separator. The stops can be made in one piece with the separator. The stoppers can be made in one piece with the connecting elements and the separator in the form of welds between them. The stops can be made separately from the connecting elements and the separator, for example in the form of lock washers or rings, or in the form of cotter pins, or pins. In this case, the stoppers can be connected to the separator and connecting elements with the possibility of disassembling or without the possibility of disassembling the separator after its assembly. The choice of one form or another of stoppers and one or another separator assembly scheme is made during design by the designer based on the technical specifications.

3) and 4) The axes of the coaxial holes of the housing and the flange are positioned at an angle to the axes of the roller sockets or between the jumpers and combined with the axes of the roller sockets in order to ensure the manufacturability of the structure. In addition, the location of the axes of the coaxial holes of the housing and the flange at an angle to the axis of the slots for the rollers makes it possible to unify the equipment and use it for different types of PCs. And the location of the axes of the coaxial holes of the separator body between the jumpers and combining them with the axes of the slots for the rollers allows you to use this design of the separator in a PC with rollers having central holes.

5.1) The outer and inner surfaces of the separator are of any technically feasible form in order to expand the functionality of the separator design and apply it to various types of PCs. For example, these surfaces are conical, the vertices of which are located at the intersection of the axes of the nests for the rollers, or cylindrical, or stepped, or another shape, or combined, consisting of conical, cylindrical and other surfaces. The decision to choose one form or another of these surfaces is made by the designer on the basis of constructive and other considerations, depending on the type of PC being designed.

5.2) The ends of the separator are arranged perpendicularly or at some angle to the axis of the separator, or are made up of at least two surfaces, one of which is perpendicular to the axis of the separator, and the other perpendicular to the axes of the coaxial holes of the housing and the flange in order to ensure the manufacturability of the housing and flange. This is due to the fact that annular parts with flat ends (the end plane is perpendicular to the axis) are more technologically advanced than parts, for example, with a conical end. However, in some cases, when it is necessary to make holes in the annular part located at a certain angle to its axis, it is more technologically advanced to make the end face at the same angle. In this case, the ends can consist of several surfaces. The number of surfaces that make up the ends of the separator does not affect the durability of the PC, but it is important that one of them is perpendicular to the axis of the separator, and the other perpendicular to the axes of the coaxial holes of the housing and the flange.

5.3) Coaxial openings of the housing are made in the jumpers through or blind, open towards the flange, or the axes of the coaxial openings of the housing and the flange are located between the jumpers and combine with the axes of the roller sockets in order to ensure manufacturability and relatively low cost of the separator. In this case, the coaxial openings of the housing can be made both through and blind. The through holes are more technologically advanced with the relatively small axial dimensions of the separator. Blind holes are more technological with the relatively large axial dimensions of the separator. And the location of the axes of the coaxial holes of the housing and the flange between the jumpers and combining them with the axes of the slots for the rollers allows you to use this design of the separator in a PC with rollers having central holes.

5.4) The stoppers are made in the form of parts of a simple form in order to ensure manufacturability and the relatively low cost of their manufacture. The stoppers are, for example, in the form of a thin-walled disk with a hole, or a pin made of wire, or a cotter pin, or a roving washer. The shape of the stoppers does not affect the durability of the PC, so it is important that it is as simple as possible and fulfill its functions.

5.5) The stoppers are fixed motionless on the surfaces of the connecting elements and the separator in order to prevent the separator from being disassembled during PC operation.

All this, ultimately, allows you to expand the functionality of the design of the separator and thereby increase the durability of the PC.

The drawing shows a separator roller PC in the context with the elements.

The separator roller PC contains a housing 1 with sockets and jumpers 2 between them, a flange 3, connecting elements 4 and stoppers 5. The outer and inner surfaces of the separator are made conical. The axis of the coaxial holes of the housing 1 and the flange 3 are located in the jumpers 2 on the surface of the equidistant surface of the location of the axis of the nests. One end 6 of the separator is perpendicular to the coaxial holes of the housing 1 and flange 3, and the other end of the separator consists of two surfaces 7 and 8, the first of which is perpendicular to the axis of the separator, and the second perpendicular to the coaxial holes of the housing 1 and flange 3. The connecting elements 4 are made in the form bolts. Landing sections 9 of the coaxial holes of the flange 3 and the connecting elements 4 are made with a thread corresponding to each other. The stops 5 are made in the form of thin-walled disks with holes, fixed motionless on the surfaces of the connecting elements 4 and the housing 1 and are connected to the housing 1 and the connecting elements 4 with the possibility of disassembling the separator.

The separator only works as part of a PC. The operation of the roller PC separator is to provide separation of the rotating rollers in a running PC. In this case, the separator does not allow the surfaces of the rollers to come into contact with each other during PC operation. This is ensured by the fact that the separator has slots for rollers and jumpers between them.

Information sources.

1. GOST 8328-75 "Radial roller bearings with short cylindrical rollers. Types and main dimensions." - M .: Publishing house of standards, 1989.

2. Patent RU No. 2087766, V.A. Baginski et al. "Stamped metal separator tapered roller bearing and a method for its manufacture", Russia, ⁶ IPC F16C 33/46, BI №23, 1997.

3. A.S. 1513260, Karel Doubal "Assembly unit for the housing of a rolling bearing cage with a flange", USSR, MKI ⁴ F16C 33/46, F16B 19/04, BI No. 37, 1989. Prototype.

Claims (5)

1. The separator of a roller bearing, comprising a comb-shaped housing with sockets and jumpers between them having recesses from the free end side, a flange connected to the housing along the surfaces of the recesses, connecting elements located in the coaxial openings of the housing and the flange, and stoppers made in in the form of locking heads of the connecting elements, in which the axes of the coaxial holes of the housing and the flange are located in jumpers on a surface of a matching or equidistant surface of the location of the axes of the nests, the surface separator faces are located perpendicular to the coaxial openings of the housing and the flange, the surfaces of the recesses are turned towards the surfaces of the flange connected to them, which have a uniform shape with the surfaces of the recesses and are connected to them along the landing, one of the surfaces of the recesses is perpendicular to the axis of the nests, the rods of the connecting elements are mated to the surfaces coaxial holes of the housing and the flange for landing on the landing section, the portion of the rod of the connecting elements adjacent to the landing section is made with less diameter, and / or coaxial holes of the housing and / or flange are made stepwise with landing sections having a smaller diameter, characterized in that the recesses are V-shaped with any acceptable angle between its surfaces, one of which is conical with a cone angle of not more than 10 ° and with a vertex on the axis of the separator located at any of its ends, the surfaces of the recesses are made from the side of the inner and / or outer diameters of the separator and connected to the flange surfaces by landing with a slight guaranteed tension hom, or, at least, without a gap, the connecting elements are installed in the coaxial holes of the housing and the flange for transitional fit and / or tight fit. 2. The cage of a roller bearing according to claim 1, characterized in that on the landing sections of the coaxial holes of the housing and / or the flange and the connecting elements, threads are made corresponding to each other, the dimensions of the seating sections are set within the cage cross section by a radial plane, the connecting elements are made in the form any technically feasible threaded parts, the stoppers perform any technically feasible form in one piece with the connecting elements and / or the separator, or separately from them and connect with comparator and connecting elements providing the separator with the possibility of disassembly or without it. 3. The cage of a roller bearing according to claim 1, characterized in that the axis of the coaxial holes of the housing and the flange are positioned at an angle to the axis of the seats, or between the jumpers and aligned with the axis of the seats. 4. The cage of a roller bearing according to claim 2, characterized in that the axes of the coaxial holes of the housing and the flange are positioned at an angle to the axes of the housings, or between the jumpers and aligned with the axes of the housings. 5. The cage of a roller bearing according to any one of claims 1 to 4, characterized in that the outer and inner surfaces of the cage are of any technically feasible shape, the ends of the cage are perpendicular or at some angle to the axis of the cage, or are made up of at least two surfaces, one of which is perpendicular to the axis of the separator, and the other perpendicular to the axes of the coaxial openings of the housing and the flange, the coaxial openings of the housing are made in bridges through or blind, open towards the flange, or and the axis of the coaxial holes of the separator housing and the flange are located between the jumpers and combined with the axes of the nests for the rollers, the stoppers are made in the form of parts of simple shape and fixed motionless on the surfaces of the connecting elements and the separator.