The present application is based on Japanese patent application No. 2016-058378 filed on Mar. 23, 2016, the entire contents of which are incorporated herein by reference.
The present invention relates to a gear drive device.
A gear drive device is known that enables improved workability of the positioning operation when the device is required to be installed with a meshing position of a second gear with a first gear at a predetermined phase (see for example Patent Document 1).
The gear drive device described in Patent Document 1 includes jigs extending beside and parallel to a first shaft and a second shaft of a back case. Inserting the jigs through positioning holes and the like and installing (supporting) the gears in order on the first shaft and the second shaft allows the rotational positions (phase, mesh position) of the gears to be fixed with respect to the back case. In other words, the jigs can be inserted at the same time as the first shaft and the second shaft are inserted through the gears, which makes it possible to perform installation and positioning operations at the same time, allowing workability to be improved.
Patent Document 1: Japanese Unexamined Patent Application Publication No. 2014-233452A
However, in the gear drive device of Patent Document 1, the jig is required to be inserted in the positioning holes as the gears are installed in order and to be removed from the positioning holes after installation. Additionally, there is no method for positioning gears relative to other gears. As a result, the tooth tips of gears may come into contact with one another upon installation resulting in problematic cutting of the teeth and the like.
It is an object of the present invention to provide a gear drive device that allows the gears to be installed at a discretionary gear mesh position without tooth tips coming into contact with one another.
[1] According to an embodiment of the invention, a gear drive device comprises:
[2] The gear drive device according to [1] may be configured such that the guide portion is disposed separately from a tooth portion of the first gear and the second gear.
[3] The gear drive device according to [2] may be configured such that the guide portion contacts with one another at a position spaced apart from the tooth portion in a tooth width direction.
[4] The gear drive device according to any one of [1] to [3] may be configured such that the guide portion of at least one of the first gear and the second gear protrudes from a tooth tip.
[5] The gear drive device according to any one of [1] to [4] may be configured such that the guide portion functions to determine an initial position in the gear rotation direction of the first gear and the second gear after the installation.
[6] The gear drive device according to [5] may be configured such that it further comprises an attachment base, wherein the initial position is determined by contacting the guide portion with a surface of the attachment base.
[7] The gear drive device according to [6] may be configured such that it further comprises a spring that is configured to bias the first gear or the second gear in the gear rotation direction, wherein the guide portion is contacted with the surface of the attachment base by a biasing force of the spring.
According to the present invention, provided is the gear drive device in which the gears can be installed at any desired gear mesh position without their tooth tips coming into contact with one another.
Overall Configuration of Gear Drive Device 1
The gear drive device 1 according to the present embodiment includes a first gear 10 and a second gear 20 in mesh with the first gear 10 to allow torque transmission. The first gear 10 and/or the second gear 20 are a fan-type gear. The first gear 10 and the second gear 20 include guide portions 12, 22, respectively, that rotate in the gear rotation direction upon installation.
First Gear 10
The first gear 10, as illustrated in
An attachment hole portion 11 is disposed in the rotation center of the first gear 10, and a motor shaft 51 of a motor 50 is attached to the attachment hole portion 11. The attachment hole portion 11 and the mating motor shaft 51 are integrally joined in a manner not allowing for rotation relative to one another. This configuration causes the rotation of the motor 50 to rotate the first gear 10.
Second Gear 20
The second gear 20, as illustrated in
An attachment hole portion 21 is disposed in the rotation center of the second gear 20, and a central shaft 70 projecting from an attachment base 30 is attached to the attachment hole portion 21. The attachment hole portion 21 and the central shaft 70 mate together in a manner allowing for rotation. This configuration allows the second gear 20 to rotate about the center of the attachment hole portion 21 (central shaft 70).
The first gear 10 and the second gear 20 have the same module for the tooth portions, and the distance between the central axes of the first gear 10 and second gear 20 is approximately the sum of d1/2 (half the pitch circle diameter d1) and d2/2 (half the pitch circle diameter d2), as illustrated in
The second gear 20 driven by the first gear 10 is provided with a drive pin 23 via which a drive target can be driven.
Guide Portion
As illustrated in
As illustrated in
As illustrated in
Additionally, as illustrated in
Attachment Base 30
The attachment base 30, as illustrated in
Torsion Spring 40
A coil portion 41 of the torsion spring 40, as illustrated in
As illustrated in
Motor 50
The motor 50, as illustrated in
Block Member 60
As illustrated in
Installation of First Gear 10 and Second Gear 20
At the initial positions prior to installation of the first gear 10 and the second gear 20, as illustrated in
As illustrated in
The second guide portion 22 includes a positioning function to determine the initial position in the gear rotation direction of the first gear 10 or the second gear 20 after installation. Note that in another embodiment, the first guide portion 12 may include the positioning function to determine the initial position after installation.
A gear drive device according to embodiments of the present invention has the following effects.
(1) The gear drive device according to the present embodiment includes the fan-type first gear 10 and second gear 20. Thus, the first gear 10 and second gear 20 need to be installed so that their respective specific teeth are paired in the rotation direction. Because of this, the first gear 10 and the second gear 20 are provided with the first guide portion 12 and the second guide portion 22, respectively. The guide portions 12, 22 facilitate the positioning of the first gear 10 and the second gear 20 in the gear rotation direction upon installation. This configuration allows the first gear 10 and the second gear 20 to be installed with any teeth paired and without tooth tips coming into contact.
(2) The first guide portion 12, as illustrated in
(3) The first guide portion 12 protrudes from the tooth tip 10b of the first gear 10. This configuration reliably prevents the tooth tips of the first gear 10 and the second gear 20 from coming into contact with one another upon installation.
(4) Accordingly, in the configuration described above, cutting of the teeth due to contact between the tooth tips of the gears upon installation can be suppressed.
As made clear above, the invention according to the scope of the claims is not limited by the representative embodiments, modified examples, and illustrated examples according to the present invention described above. As such, it should be understood that all combinations of the features described in the embodiments, modified examples, and illustrated examples are not required parts of the means to solve the problem of the invention.
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2016-058378 | Mar 2016 | JP | national |
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Entry |
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Office Action issued in the corresponding Japanese application No. 2016-058378 dated Feb. 28, 2017. |
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20170276218 A1 | Sep 2017 | US |