Bilateral two-stage internal engagement biarc bevel gear nutation speed reducer and working method

A technology of bevel gear transmission and double circular arc, which is applied in the direction of gear transmission, belt/chain/gear, transmission, etc., can solve the problems of increased noise, radial interference, heavy weight, etc., and achieve the overall service life extension, Reasonable structural design and strong bearing capacity

Active Publication Date: 2016-12-21
FUZHOU UNIVERSITY
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Problems solved by technology

[0002] Common nutating reducers mostly use involute tooth profile or cycloid tooth profile transmission, but the transmission efficiency of involute tooth profile is low, and problems such as tooth profile overlapping interference and radial interference are prone to occur in the nutating structure; The linear tooth shape is prone to problems such as tooth profile overcut and pin-tooth collision; planetary reducers with large speed ratios have complex structures, are difficult to manufacture and install, and are heavy in weig

Method used

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  • Bilateral two-stage internal engagement biarc bevel gear nutation speed reducer and working method
  • Bilateral two-stage internal engagement biarc bevel gear nutation speed reducer and working method
  • Bilateral two-stage internal engagement biarc bevel gear nutation speed reducer and working method

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Embodiment Construction

[0021] In order to make the above-mentioned features and advantages of the present invention more comprehensible, the following specific embodiments are described in detail with reference to the accompanying drawings.

[0022] Such as Figure 1~4 As shown, a double-sided double-stage internal meshing double-arc bevel gear nutation reducer includes a box body 1, and one end of the box body 1 is pierced with an input shaft 2, and the input shaft 2 is located in the box body 1 A nutating sleeve 3 is arranged on the shaft section of the nutating sleeve 3, and a variable-speed double-arc bevel gear 5 is connected to the nutating sleeve 3 via the first bearing 4, and a balance double-arc bevel gear 5 is connected to the nutating sleeve 3 via the second bearing 6. Arc bevel gear 7, the other end of the box 1 is provided with output double arc bevel gear 8 and fixed double arc bevel gear 9, the output double arc bevel gear 8 and fixed double arc bevel gear 9 The third bearing 10 is c...

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Abstract

The invention relates to a bilateral two-stage internal engagement biarc bevel gear nutation speed reducer which comprises a box. An input shaft is arranged at one end of the box in a penetrating manner. The shaft section, located in the box, of the input shaft is provided with a nutation sleeve. A variable-speed biarc bevel gear is connected to the nutation sleeve through a first bearing. A balance biarc bevel gear is further connected to the nutation sleeve through a second bearing. An output biarc bevel gear and a fixed biarc bevel gear are arranged at the other end of the box in a penetrating manner. The output biarc bevel gear is connected with the fixed biarc bevel gear through a third bearing. The variable-speed biarc bevel gear is in transmission engagement with the output biarc bevel gear, the balance biarc bevel gear is in transmission engagement with the fixed biarc bevel gear, and the two engagement points appear at the same time and are located on the two sides of the input shaft. The invention further relates to a working method of the bilateral two-stage internal engagement biarc bevel gear nutation speed reducer. The bilateral two-stage internal engagement biarc bevel gear nutation speed reducer is reasonable in structural design, efficient and convenient and fast to operate.

Description

technical field [0001] The invention relates to a double-sided double-stage internal meshing double arc bevel gear nutation reducer and a working method. Background technique [0002] Common nutating reducers mostly use involute tooth profile or cycloid tooth profile transmission, but the transmission efficiency of involute tooth profile is low, and problems such as tooth profile overlapping interference and radial interference are prone to occur in the nutating structure; The linear tooth shape is prone to problems such as tooth profile overcut and pin-tooth collision; planetary reducers with large speed ratios have complex structures, are difficult to manufacture and install, and are heavy in weight. The existing two-stage internal meshing double-arc nutation reducer is always on the same side because the two-stage gear meshes, resulting in an increase in the circumferential force that cannot be offset, so that the entire box bears a large inertial force, resulting in very...

Claims

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Application Information

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IPC IPC(8): F16H1/32F16H57/023
CPCF16H1/2854F16H1/32F16H57/023F16H2001/328
Inventor 姚立纲蔡永武任铖铖林蔚韡
Owner FUZHOU UNIVERSITY
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