JPH04106543U - Eccentric swing type reducer - Google Patents

Abstract

(57) [Summary] [Purpose] To simplify the configuration of the peripheral crank part of the eccentric oscillating gear in an eccentric oscillating reducer, and to facilitate assembly. Also, it is possible to improve the accuracy of this peripheral crank mechanism. [Structure] The peripheral crank mechanism includes a plurality of support shafts (52) (52) that protrude from the disk (5) at right angles to the rotating surface of the eccentric rocking gear (2), and a support shaft (52). It is composed of an eccentric cylinder (53) which is fitted externally to the eccentric rocking gear (2) in a circularly paired state, and is inserted internally to the eccentric rocking gear (2) in a circularly paired state, and the eccentric distance of this eccentric cylinder (53) is set by the center crank ( 10) to match that of the crank pin (11).

Description

[Detailed explanation of the idea]

0001

[Industrial application field and overview of the invention]

In this invention, the input shaft is rotatably supported by the input shaft and is inscribed in the internal gear. Regarding an eccentric oscillating type reducer equipped with eccentric oscillating gears that freely rotate and mesh with each other. In particular, the so-called center crank type eccentricity where the input shaft is a crank This relates to a swing type reduction gear.

0002

[Prior art and issues]

As a so-called center crank type eccentric oscillating reducer, it has already been developed in 1988-1. There is a method disclosed in Japanese Patent No. 02856, in which, as shown in FIG. Crank pins (11) (11) of the center crank (10) formed on the shaft (1) and a pair of eccentric oscillating gears (2a) (2b) are paired to rotate these eccentric oscillating gears (2a) and (2b). The gears (2a) and (2b) are attached to the internal gear (31) formed on the inner peripheral surface of the casing (3). The eccentric oscillating gears (2a) and (2b) are eccentrically oscillated by the input shaft (1). By doing so, the differential when rotating while meshing with the internal gear (31) The rotational speed is taken out from the output shaft (4). In this case, the center crank (10) is rotated in order to take out the differential rotation. a plurality of peripheries with crank pins eccentric by the same dimension as the crank pin (11); A crank (50) (50) is rotatably attached to the disc (5) and The crank pin (51) of the crank (50) is connected to the teeth of the eccentric rocking gears (2a) (2b). Contrast in the vicinity of .

0003 As a result, by rotationally driving the input shaft (1), the inner gear (31) is internally driven. When the eccentric rocking gears (2a) (2b) are rocked and rotated in the meshed state, each peripheral clamp The crank pin (51) of the crank (50) rotates in response to this rotational oscillation, causing eccentric oscillation. Rotation angle corresponding to the difference between the number of teeth of the moving gears (2a) (2b) and the number of teeth of the internal gear (31) degree is the rotation angle of the eccentric rocking gear, which is the rotation angle of the disk (5), In other words, it can be extracted as the rotation angle of the output shaft (4). In this way, in the prior art described above, the input shaft (1) and the output shaft (4) are coaxial. Under the above conditions, a large reduction ratio can be obtained. In addition, eccentric rocking gear (2a) ( 2b) and the internal gear (31), the differential rotation between the eccentric oscillating gears (2a) and (2b) and the clamp Is it transmitted to the disc (5) through the coupling part around the link pin (51)? Therefore, no rattling occurs in the differential rotation angle transmission path. In other words, smooth rotation Transmission becomes possible.

0004 However, in this prior art, in addition to the center crank (10), multiple peripheral The cranks (50) (50) are connected to the eccentric rocking gears (2a) (2b) and the disc (5). Assembling is troublesome because it needs to be interposed between the parts. Also, generally high precision Producing a precise crank is troublesome. Therefore, the center crank (10) is essential. However, even the plurality of peripheral cranks (50) (50) shall have a similar configuration. Sometimes the whole thing is expensive. This means that the eccentric oscillating gear has a single shape. The same can be said for the type reducer. In addition, the above differential rotation can be controlled by the casing (3 ) is also taken out. The present invention is designed to inscribe and mesh with the internal gear (31) formed in the casing (3). The eccentric oscillating gear (2) is driven by the center crank (10) attached to the input shaft (1). The internal gear (31) and the eccentric oscillating gear (2) are caused to revolve in an eccentric oscillating state. Differential rotation is achieved by a disc (5) holding an eccentric rocking gear (2) in a freely rocking and rotatable manner; In the "eccentric oscillating reducer" which is taken out from the casing (3), the disc The objective is to simplify the support structure of the eccentric rocking gear (2) in (5). At the same time, the assembly of the eccentric rocking gear (2) to the disc (5) can be simplified. The task is to do so.

[0005]

[Technical means]

The technical means of the present invention to solve the above problems is to A plurality of support shafts (52) (52) are protruded at right angles to the rotating surface of the rocking gear (2). At the same time, these support shafts are passed through the eccentric rocking gear (2), and in the eccentric rocking gear (2), The penetrating portion of each support shaft (52) is provided with a pair of external parts arranged in pairs around the support shaft (52). An eccentric cylinder (53) that is fitted and inserted into the eccentric rocking gear (2) in a pairwise state is used to adjust the eccentric distance of the eccentric cylinder (53) to the crank of the center crank (10). 2. Matching that of link pin (11).

[0006]

[Effect]

The above technical means works as follows. The eccentric rocking gear (2) is rotated by the center crank (10) of the input shaft (1). rotates around its axis while being internally engaged with the internal gear (31). At this time, the eccentric tube ( 53) and the eccentric oscillating gear (2), the paired portions also oscillate and rotate accordingly. Two depending on the degree of eccentricity of the crank pin (11) of the center crank (10). Rotate with the radius of rotation. Eccentric cylinder (53), eccentric rocking gear (2) and support shaft (52 ), the eccentric oscillating gear (2) rotates with the disc ( 5) There is no relative rotation. Therefore, the eccentric rocking gear (2) and the internal gear (31 ) is transmitted to the disk (5) or the casing (3). In other words, When the disk (5) is fixed, the differential rotation is transmitted from the casing (3). If the casing (3) is fixed, then the disc (5) The differential rotation can be extracted. Also, when assembling the eccentric rocking gear (2), make sure to align the center of the input shaft (1) in advance. The support shaft (52 ) and insert the eccentric cylinder (53) into this penetrating part in a predetermined attitude. The oscillating rotation around the eccentric oscillating gear (2) can be adjusted by simply inserting the The turning section is properly supported. Furthermore, the constituent members of the peripheral swinging and rotating portion are all formed by a combination of cylindrical bodies. It exhibits the same function as the conventional peripheral crank (50) described above.

[0007]

【effect】

Compared to the conventional gear mentioned above, the structure of the crank mechanism around the eccentric rocking gear (2) is different. Can be simplified. Also, this part is easy to assemble. Furthermore, the peripheral crank mechanism can be configured by combining multiple cylindrical bodies. , it is extremely easy to improve the machining accuracy of this part, and as a result, the above The precision of the mechanical part is increased.

[0008]

【Example】

Next, the embodiments of the present invention described above will be described in detail with reference to the drawings. In the embodiment shown in FIGS. 1 to 4, the eccentric oscillating gear (2) is fixed in the same manner as in the conventional example described above. Consisting of a pair of eccentric rocking gears (2a) (2b), and gauging (3). Differential rotation is generated from an output shaft (4) which is fixed and connected to this via a disk (5). It was designed to be taken out. Here, the eccentric oscillating gear (2a) and the eccentric oscillating gear (2b) are connected to the input shaft (1). eccentric in the opposite direction. Therefore, a pair of centers provided on the input shaft (1) 18 in the eccentric direction of the crank pins (11) (11) of the cranks (10) (10) There is an angular deviation of 0 degrees. In addition, the eccentric distance of each crank pin is the eccentric oscillating gear. Adapt it to the difference between the pitch circle diameter of (2a) and (2b) and that of the internal gear (31). be. The input shaft (1) is connected to a cover plate (32) that forms one side wall of the casing (3). The center crank (10) is equipped at the tip of the The other crankshaft of the center crank (10) is aligned with the center of the disc (5) It is supported in a pairwise manner.

[0009] The disk (5) is integrally coupled with the output shaft (4), and the disk (5) is integrally connected to the output shaft (4). (5), as shown in Figures 3 and 4, three support shafts (52) (52) are connected to the input shaft (1 ), and these support shafts (52) (52) are arranged at equal intervals on the same circumference. They are lined up. Further, a reinforcing ring is provided at the middle of each of the support shafts (52) (52). A mounting shaft (54) for mounting the plug (6) is provided. Therefore, the data The support shaft (52) and the mounting shaft (54) are arranged alternately on one surface of the disk (5). It will be continuous. The penetrating portion of the support shaft (52) in the eccentric rocking gears (2a) and (2b) has this A through hole (21) larger than the diameter of the support shaft (52) is formed. An eccentric cylinder (53) that is arranged around the through hole is arranged around the support shaft (52). It is fitted into the state. Then, on the support shaft (52) of the central axis of this eccentric cylinder (53), The eccentric distance with respect to the crankshaft of the center crank (10) is The eccentric distance is made to match the eccentric distance of the link pin (11). Regarding the other mounting shaft (54), as shown in FIG. ) (2b), and passes through the relief hole (22) formed in (2b). The size of The mounting shaft (54) has a relief hole when it is oscillated by the tar crank (10). (22) Do not contact the inner peripheral surface. Therefore, the mounting shaft (54) and the eccentric rocking gear (2 ) and have a mutually free relationship.

0010 The support shaft (52) and the mounting shaft (54) are fixed to the disk (5). , its tip is disposed between the eccentric rocking gear (2a) and the side wall of the casing (3). It is screwed to the reinforcing ring (6). Therefore, each support shaft (52) is supported by the disk (5) and the reinforcing ring (6). The ends are supported, and the eccentric rocking gears (2a) and (2b) are rotated before transmission. The supporting force of the support shaft (52) is in an enhanced state. Further, in this embodiment, a spacer ring (57) is provided at the center of the support shaft (52). This is interposed between the eccentric rocking gears (2a) and (2b). to this Therefore, the two rotate relative to each other while maintaining a constant distance without touching each other. .

[0011] The above three support shafts (52) (52) and mounting shafts (54) (54) are both It is assembled to the disk (5). For this unit, the tip side of the input shaft (1) The input shaft ( Assemble by inserting the crankshaft at the tip of 1) into the bearing part of the disc (5). Then, as shown in FIG. Insert the eccentric cylinder (53) between the support shaft (52) and the through hole (21) so that they fit together. do. Next, after fitting the spacer ring (57) onto each support shaft (52), the other Insert the eccentric rocking gear (2a) into the crank pin (11), as shown in FIG. An eccentric cylinder (53) is provided between the support shaft (52) and the through hole (21) of the eccentric rocking gear (2a). ) are inserted separately, the eccentric rocking gears (2a) (2b) will connect to the input shaft (1) and disc. It can be assembled properly in relation to the screen (5). After that, the support shaft (52) and installation A reinforcing ring (6) is screwed to the tip of the shaft (54), and the entire ring is fitted with an eccentric rocking tooth. Inside the casing (3) with the teeth of the wheels (2a) and (2b) meshing with the internal gear (31). When the cover plate (32) of the casing (3) is closed, the reducer is assembled.

0012 In this embodiment, the eccentric oscillating gears (2a) and (2b) are in opposite positions and are connected to the internal gear (31). Because they mesh with each other, eccentric unbalance during transmission is eliminated and transmission is smooth. becomes. In the above embodiment, the configuration uses a pair of eccentric rocking gears (2a) and (2b). The present invention can also be used in a system in which the speed is reduced by one eccentric rocking gear (2). Ma In addition, in the above embodiment, eccentric rocking gears (2a), (2b), etc. are attached to the disk (5). However, the input shaft (1) and eccentric rocking gears (2a) (2b) You can also assemble this unit to the disk (5) after completing the assembly. stomach. In addition, in FIGS. 1 to 4, rolling bearings in each pair of circumferential parts are not shown. , it goes without saying that rolling bearings may be provided in the rotation pairs of the required parts.

[Brief explanation of drawings]

[Figure 1] Cross-sectional view of an embodiment of the present invention

[Figure 2] Detailed view of the main part of the support shaft (52)

[Figure 3] XX sectional view

[Figure 4] Y-Y sectional view

[Fig. 5] Explanatory diagram of conventional example

[Explanation of sign]

(3)...Casing (31)...Internal gear (2)...Eccentric rocking gear (1)...Input shaft (10)...Center crank (5) Disc (52)...Support shaft (53)...Eccentric cylinder (11)...Crank pin (1)...Input shaft

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[Procedural amendment]

[Submission date] June 6, 1991

[Procedural amendment 1]

[Name of document to be corrected] Drawing

[Correction target item name] Figure 4

[Correction method] Change

[Correction details]

[Figure 4]

Claims (1)

[Scope of utility model registration request] [Claim 1] An internal gear (3) formed on the gaging (3).
The eccentric oscillating gear (2) inscribed in and meshing with the internal gear (31) is rotated in an eccentric oscillating state by a center crank (10) attached to the input shaft (1), and In an eccentric oscillating type reducer in which differential rotation between the eccentric oscillating gear (2) and the eccentric oscillating gear (2) is taken out from the disk (5) or the casing (3), the eccentric oscillating gear (2) is held for oscillating rotation. ) from which a plurality of support shafts (52) (52) protrude perpendicularly to the rotating surface of the eccentric rocking gear (2), and these support shafts penetrate the eccentric rocking gear (2). The penetrating portion of each support shaft (52) in (2) is provided with an eccentric shaft that is externally fitted around the support shaft (52) in a paired state and inserted in a matched state around the eccentric rocking gear (2). A cylinder (53) is interposed, and the eccentric distance of this eccentric cylinder (53) is set to the crank pin (1) of the center crank (10).
Eccentric oscillation type reducer matching that of 1).