WO2016007110A1 - Planetary gear carrier - Google Patents

Abstract

1. Technical field: mechanical engineering. 2. Direct use: in actuators of machines having any purpose, and more particularly in the actuator of a winning machine for rock extraction. 3. Essence of the invention: each pair of coaxial apertures is cut to permit the mounting, in the remaining portion of a housing, of the bearing supports of a satellite, which supports are secured in the housing by means of a detachable holder capable of accommodating a corresponding satellite and its bearing supports. 4. The achieved technical result consists in reliably securing each pair of bearing supports of a satellite, and in the simplicity and ease of replacement of a satellite.

Description

 DRIVED PLANETARY TRANSMISSION

DESCRIPTION

Technical field

The invention relates to mechanical engineering and can be used in drives of machines for any purpose, in particular, it is proposed to use in the drive of a shearer for excavating the rock mass.

BACKGROUND OF THE INVENTION A planetary gearbox is known from the prior art, in which the carrier is split, in the form of two separate cheeks, in which, by the number of satellites, holes are made coaxially for the bearings of the bearings of the satellites. This design of the carrier allows the satellite gears to be integral with the shaft in the form of a pinion shaft, which significantly strengthens the design of the satellite gears compared to when the satellite is made in the form of a gear with bearings mounted inside it, mounted on the axis [1].

 The disadvantages of this design is that the carrier is split, in the form of two separate cheeks, which reduces its rigidity and complicates the assembly-disassembly process.

From the prior art, the planetary carrier has been selected as the closest analogue, comprising a housing with integrally made cheeks having holes for bearing satellite bearings, and a bracket connected to the housing in the middle part along its length, characterized in that at least one of its cheeks is made in the form of two coaxial mating rings, the holes are located around the mating circle of the rings, and the outer ring is connected to the housing by means of fasteners [2].

 The disadvantage of such a carrier structure is its complexity, the presence of a large number of fasteners, which ultimately reduces the rigidity of the structure, and the execution in the form of two coaxial rings of at least one of the cheeks of the housing, and especially two, reduces the reliability of mounting a pair of bearing bearings of each individual satellite . This is due to the fact that one or two different rings (coaxially conjugated to each of the cheeks) are not a single rigid part, and the opposite bearing bearings of the same satellite are held in the cheeks not by one part, but by different (rings), which ultimately reduces reliability of fastening a pair of bearing bearings of each individual satellite.

 The present invention is aimed at solving the technical problem of creating an easy to manufacture and maintain, and at the same time reliable and rigid carrier structure, which will ensure the reliability of fastening a pair of bearing bearings of each individual satellite, which will make the structure more rigid. In addition, the proposed design will simplify the process of replacing satellites.

 As a result of the implementation of the task, a technical result can be obtained, which consists in ensuring:

 - reliable fastening of each pair of satellite bearing bearings due to their fastening with one integral part;

- simplicity and convenience of the replacement of the satellite by attaching its supports with one integral part that is easy to remove, having unscrewed the bolts, and remove the satellite assembly from the cheeks of the housing with its bearing assemblies.

 Achieving the claimed technical result provides the technical solution with consumer properties, which consist in increasing the service life of the planetary gear carrier, reducing the time to replace the satellites.

SUMMARY OF THE INVENTION The problem is solved in that in the known planet carrier, which includes satellites and a housing, in which cheeks are made integrally with it, having coaxial holes for mounting the bearing bearings of the satellites, in accordance with the claimed technical solution, it is proposed through each pair of coaxial openings to perform a cut with the possibility of installing in the remaining part of the housing of the bearing bearings of the satellite, the fixation of which in the housing is carried out by the removable gimbal mounted on sections of the housing with the possibility of placing in it the corresponding satellite and its bearings.

 In addition, the claimed technical solution proposes:

- satellites to perform in the form of a gear shaft;

 - each holder in cross section is made in the form of a segment, and connected to the body in such a way that the curved surfaces of all the holders and the body together form a single outer cylindrical surface of the carrier;

- additionally introduce two outer rings coaxial with the body into the structure, which will cover the body on both sides, and holders, and fix them on the case by means of a detachable connection;

 - each removable holder to fix on the body with a pin connection and fasteners;

 - in each removable holder to make a hole with the possibility of placing in it the ring gear of the satellite;

 - planes of all sections made through the corresponding pair of coaxial holes, to perform equidistant from the axis of rotation of the carrier.

 The above essential features of the invention, different from the closest analogue, are necessary and sufficient in all cases to which the scope of legal protection of the invention extends.

 The causal relationship between the newly introduced essential features and the obtained technical result is explained as follows. To solve the technical problem of creating an easy to manufacture and maintain and at the same time rigid carrier structure, new significant features were introduced into the formulas:

 - through each pair of coaxial holes a cut is made with the possibility of installation in the remaining part of the housing of the bearing bearings of the satellite,

 - the fixation of which in the housing is carried out by the removable holder additionally introduced into the structure, made with the possibility of placing the corresponding satellite and its bearings in it.

Perform a slice that divides the coaxial holes into two parts, one of which remains in the housing, and the second in again introduced into the design of the removable holder allows you to use the satellites in the form of a shaft-gear and carry out their installation-dismantling together with the bearing assemblies, removing only one part - a removable holder. This ensures the achievement of a technical result - simplicity and convenience of the replacement of the satellite in comparison with the prototype.

 At the same time, the design of the removable holder allows you to fix with it both bearing bearings of one satellite, which ensures the achievement of a technical result - more reliable fastening of each pair of bearing bearings of the satellite in comparison with the prototype.

 The claimed technical solution is illustrated by an example, the implementation of which is not the only possible, but clearly demonstrates the possibility of achieving the claimed technical result by the proposed new set of essential features.

The essence of the technical solution is presented in the drawings, where:

- figure 1 shows a General view of a planetary gear carrier in the context;

 - figure 2 shows a view of the holder and the hole for the output of the gear ring of the satellite;

- in FIG. 3 shows a 3D image of a planetary gear carrier. Brief Description of the Drawings

1 - housing;

 1.1 - cheek;

 1.2 - coaxial holes;

 1.3 - slice;

 2 - satellite;

 2.1 - bearing bearings;

 2.2 - the gear ring of the satellite;

 3 - removable holder;

 3.1 - curved surface of the holder;

 3.2 - the outer surface of the housing;

 3.3 - hole;

 3.4 - a flat surface;

 4 - outer ring;

 5 - an outer ring;

 6 - pin connection;

 7 - fasteners;

 8 - detachable connection;

 9 - axis of rotation of the carrier.

Industrial applicability

The implementation of the invention is as follows. The planetary gear carrier assembly is removed from the gearbox of the shearer. Remove the outer rings (4) and (5), fixed with a detachable connection (8), for example, bolted, etc. Then, the fastening elements (7) fixing the removable holders (3) are removed and each is removed from the corresponding pins. Thus, access to the satellites (2) with their bearing supports (2.1) is opened, which without any effort is removed by the operating personnel by moving towards themselves from the axis of rotation of the carrier (9).

 The assembly of the planetary gear carrier is carried out in the reverse order. Each satellite (2) with bearing supports (2.1) is installed in the part of the housing (1) remaining from the cut (1.3), and the protruding parts of the bearing supports (2.1) are covered with a removable holder (3) with its fixation using pin connections (6). To do this, coaxial holes (1.2) are made in the removable holder (3) to allow the protruding parts of the bearing supports (2.1) of the corresponding satellite (2) to be placed in them. In this case, each removable holder (3) in the middle part is provided with a through hole (3.3), in this case, a rectangular shape, which is necessary for the output of the gear ring (2.2) of the satellite (2) to be able to engage the next gear stage with the gear wheel.

 In addition, each removable holder (3), which is made in cross section in the form of a segment, is mated to the housing (1) so that the curved surfaces (3.1) of all the holders (3) and the outer surface (3.2) of the housing (1) together form a single outer cylindrical surface of the carrier, and with its flat surface (3.4), a removable holder (3) is mounted on a cut (1.3) of the cheeks (1.1) of the housing (1).

For additional fastening of removable holders (3) on the housing (1), as well as for protection from falling out of fixing elements (7) and eliminating the risks of them getting inside the gearbox, outer rings (4) and (5) are introduced into the design, covering the housing (1) and removable holders (3) on both sides, and fixed to the housing (1) by means of a detachable compounds (8).

 As a result, a simple and reliable design of the planetary gear carrier was obtained, and the convenience of the satellite replacement process was ensured.

 The above information confirms the possibility of industrial implementation and industrial use of the planetary gear carrier, which is claimed, which indicates that the technical solution meets the criterion of "industrial applicability".

Information sources:

1. "Planetary gears", a guide edited by. Doctors of tech. sciences V.N. Kudryavtseva and Yu.N. Kirdyasheva, Leningrad, “Mechanical Engineering”, Leningrad Branch, 1977, p. 1 17, 1 18, 520.

 2. USSR copyright certificate N ° 1036981 A, priority

05/27/1983, bull. N

Claims

FORMULA

1. The planetary gear carrier, which includes the satellites (2) and the housing (1), in which the cheeks (1.1) are made, having coaxial holes (1.2) for installing the bearing bearings (2.1) of the satellites (2), characterized in that through each a pair of coaxial holes (1.2) has a slice (1.3) with the possibility of installing a satellite (2) in the remaining part of the housing of bearing bearings (2.1), the fixing of which in the housing (1) is carried out by the removable holder (3) additionally inserted into the structure, made with the possibility of placement in it the corresponding satellite (2) and its under Bearing supports (2.1).

 2. The planetary gear carrier according to claim 1, characterized in that the satellites (2) are made in the form of pinion shafts.

 3. The planetary gear carrier according to claim 1 or 2, characterized in that each holder (3) in cross section is made in the form of a segment and is mated to the housing (1) so that the curved surfaces of all holders (3.1) and the outer surface ( 3.2) the body (1) together form a single outer cylindrical surface of the carrier.

 4. The planetary gear carrier according to claim 1, 2 or 3, which is characterized in that the outer rings (4) and (5), coaxial with the housing (1), and covering the housing (1) and holders (on both sides) are additionally introduced into the structure 3), and fixed on the housing (1) by means of detachable connections (8).

5. The planetary gear carrier according to claim 1, 2, 3 or 4, which is characterized in that each removable holder (3) is fixed to the housing by a pin connection (6) and fasteners (7).

6. The planetary gear carrier according to claim 1, 2, 3, 4 or 5, which is characterized in that a hole (3.3) is made in each removable holder (3) with the possibility of placing a gear ring (2.2) of a satellite (2) in it.

 5 7. The planetary gear carrier according to claim 1, 2, 3, 4, 5, or 6, characterized in that the planes of each of the sections (1.3) made through the corresponding pair of coaxial holes (1.2) are equidistant from the axis of rotation of the carrier ( 9). Yu

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