JPH02138522A - Torque transmission device - Google Patents

Abstract

PURPOSE:To transmit and release a large torque in simple structure by providing a wedged cam in a retaining ring that is connected with an input retainer, and, with a pivotal roller being arranged, by pushing the roller to the retaining ring by means of the rotation of the input retainer. CONSTITUTION:An input retainer 2 and a retaining ring 4 are connected each other by a pin 5, and a first and a second wedged cams 9a, 9b are attached to a flange surface 4a of the retaining ring 4 with each inclined-face of the wedge opposed to one another. Rollers 10a, 10b are arranged on the cams 9a, 9b, respectively, and a spring 11 is provided in a direction far from both of the rollers 10a, 10b. A pivotal release lever 13 is sandwiched between the input gear retainer 2 and an output gear retainer 6. When the input retainer 2 is rotated in a direction of 13, the roller 10a is caught between the cam 9a and the retainer 2, and the output retainer 6 that is integrated with the retaining ring 4 is also rotated.

Description

DETAILED DESCRIPTION OF THE INVENTION a. Field of Industrial Application This invention relates to a torque generating device with a clutch function (+iδ).

BACKGROUND OF THE INVENTION Hitherto, electric devices such as electromagnetic clutches and electromagnetic brakes have been known as torque transmission devices with a clutch function.

C1 Problems to be Solved by the Invention Conventional systems configured as above) ■ - (The five-speed device requires electrical wiring, and the installation work is f'J)1, and the structure is complicated. The problem is that it becomes ;Fttsuna.

The present invention was made to solve the above-mentioned problems, and aims to provide a torque transmission device that does not require electrical wiring and has a simple configuration.

d. Means for Solving the Problems] The present invention includes an input section into which torque is input, an input retainer connected to the input section, and an input retainer connected to the input retainer. an output retainer provided opposite to the input retainer; an output part connected to the output retainer and to which torque from the input part is transmitted; and an output part provided in the retaining ring. The apparatus includes a wedge-shaped cam, a roller movably disposed on the cam, and a release lever rotatably provided between the input retainer and the output retainer.

01 Effect In this invention, as the input section rotates, the roller is wedged between the cam and the input retainer to connect the input section and the output section, and the rotation of the release lever moves the roller to remove the input retainer. The connection between the section and the output section is released.

f. Example Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a cutaway plan view of essential parts showing an embodiment of the present invention, FIG. 2 is a front sectional view of essential parts of FIG. 1, and FIG. 3 is a right sectional view of FIG. An input gear 1 and an input gear retainer 2 are connected by a first rivet 3. The input gear retainer 2 and the retaining ring 4 are connected by a pin 5.

The output gear retainer 6 and the output gear 7, which is an output section, are connected by a second rivet S. Connection and disconnection between the output gear retainer 6 and the retaining ring 4 are performed by a clutch tin.

The flange surface 4a of the retaining ring 4 is in contact with the bottom surfaces of each of the wedge-shaped first force 1-9a and the second cam 9b that constitute the clutch mechanism. A first roller 10a and a second roller 10b are mounted on the first and second cams 9a, 91+, which are arranged symmetrically with their inclined surfaces facing each other, respectively. A first roller 1 is provided between the first roller 10a and the second roller 10b.
A spring 11 is provided that urges the roller 0a and the second roller 10b apart.

A rotatable release lever 12 is provided between the input gear retainer 2 and the output gear retainer 6. The rotation of the release lever 12 is regulated by a stopper bin 13 fixed to the output gear retainer 6, and the rotation width is determined by the stopper bin 13 and the release lever 1.
It is determined by the gap size A formed between 2 and 2. The release lever 12 is normally positioned by the action of a centering spring 14 so that the center line of the stopper bin 13 and the center line of the release lever 12 coincide with each other, as shown in FIG. Note that 15 is a shaft, 16 is a first bearing, and 17 is a second bearing.

Next, the operation of the torque transmission device having the above configuration will be explained with reference to FIG. 4. When the input gear retainer 2 and the retaining ring 4 rotate in the direction of arrow B, the first roller 10a moves in the rotational direction and bites between the input gear retainer 2 and the first cam 9a. As a result, the input gear retainer 2 and the retaining ring 4 rotate together, and the output gear retainer 6 integrated with the retaining ring 4 rotates together.
, the output gear 7 rotates in the same direction as the input gear 1.

On the other hand, when the input gear rotates in the opposite direction, the rotational force of the input gear 1 is transmitted to the output gear 7 by the locking 1 between the second roller 10b and the second cam 9b.

Then, when the input gear 1 is rotating in the direction of arrow B, for example, if the release lever 12 is rotated in the opposite direction to the rotation direction, the release lever 12 is rotated by the dimension of the gap A, and the first The first roller 10a that has bitten between the cam 9a and the input garri retainer 2 is pushed back inward, and the input garri retainer 2 and the retaining ring 4 are unlocked. As a result, the torque input to input gear 1 is not transmitted to output gear 7. Also, when the release lever 12 is released, the centering spring 14
The release lever 12 automatically returns to its original position.
The rotational force of the input gear 1 is transmitted to the output gear 7 by the locking action of the first roller 10g or the second roller 10b.

In addition, in the above embodiment, the case where the input gear is used as the input section and the output gear is used as the output section is explained.
For example, a pulley may be used without being limited to this. Further, in the above embodiment, the first cam and the second cam are arranged with their inclined surfaces facing each other, so that the input part and the output part are connected even if the input part rotates in any direction. As described above, if the input section and the output section need to be connected only during rotation in one direction, only one cam and one roller are required.

g0 As described in detail of the invention, in the torque transmission device of the present invention, as the input section rotates, the roller bites between the cam and the input retainer to connect the input section and the output section, and also releases the roller. The rotation of the lever moves the roller and releases the connection between the input section and the output section, so a large torque is transmitted from the input section to the output section with a simple structure, and the transmission is also released. It has the effect of being

[Brief explanation of the drawing]

FIG. 1 is a cutaway plan view of essential parts showing an embodiment of the present invention, FIG. 2 is a sectional front view of essential parts of FIG. 1, FIG. 3 is a right sectional view of FIG. 1, and FIG. FIG. 2 is an enlarged sectional view of the main part of FIG. 2; 1 is the input gear, 2 is the input gear retainer, 4 is the retaining ring, 6 is the output gear retainer, 7 is the output gear, 9
a is a first cam, 9b is a second cam, 10a is a first roller, 101+ is a second roller, and 12 is a release lever. In each figure, the same reference numerals indicate the same or corresponding parts. Figure 1 Figure 2

Claims (1)

[Claims] An input section into which torque is input, an input retainer connected to this input section, a retaining ring connected to this input retainer, an output retainer provided opposite to the input retainer, and this output. an output section connected to the retainer and to which torque from the input section is transmitted; a wedge-shaped cam disposed on the retaining ring; a roller rotatably disposed on the cam; and the input retainer. and a release lever rotatably provided between the output retainer and the output retainer, and as the input section rotates, the roller is wedged between the cam and the input retainer, and the input section and the input retainer are rotated. the roller is connected to the output section, and the roller is moved by rotation of the release lever;
A torque transmission device characterized in that the connection between an input part and an output part is released.