KR101152427B1 - Method to connect lug to torque converter and torque converter manufacturing the same - Google Patents

Abstract

The present invention discloses a method of assembling a connecting lug of a drive plate and a torque converter provided on an engine side.
The coupling lug coupling method of the torque converter of the present invention is coupled to the front cover, the front cover and the impeller to rotate together, the turbine disposed in a position facing the impeller, located between the impeller and the turbine to direct the flow of oil from the turbine to the impeller side A change-up reactor, a lockup clutch with a piston directly connecting the front cover and the turbine, a torsional damper provided with springs coupled to the lockup clutch to absorb shocks and vibrations acting in the direction of rotation,
The front cover is coupled with a connecting lug to which the drive plate transmitting the driving force of the engine is coupled, the connecting lug is provided with a plurality of protrusions, the front cover is provided with a groove corresponding to the protrusion of the connecting lug, and the groove of the front cover Insert the lug of the connecting lug and press it by forging to fix it.

Description

Connecting lug coupling method of torque converter, and torque converter manufactured by the method {Method to connect lug to torque converter and torque converter manufacturing the same}

The present invention relates to a method of coupling a front end cover with a connecting lug connecting the drive plate and the front cover provided on the engine side.

In general, the torque converter is installed between the engine of the vehicle and the transmission to transmit the driving force of the engine to the transmission using a fluid. The torque converter has a front cover receiving the driving force of the engine, an impeller rotating together with the front cover, a turbine rotated by oil discharged from the impeller, and a flow of oil flowing back to the impeller in the direction of rotation of the impeller. It includes a reactor (also called a 'stator') that increases the rate of torque change.

Torque converters are equipped with a lock up clutch (also called a 'damper clutch'), a means of direct connection between the engine and the transmission, as the load on the engine can decrease power transmission efficiency. The lockup clutch is disposed between the front cover and the turbine directly connected to the engine so that the rotational power of the engine can be transmitted directly to the transmission through the turbine.

This lockup clutch includes a piston that is axially movable on the turbine shaft. And the piston is coupled to the friction material in friction contact with the front cover. And the piston is coupled to the torsional damper (Torsional damper) that can absorb the shock and vibration acting in the rotational direction of the shaft when the friction material is coupled to the front cover.

The front cover is coupled with a connecting lug for fixing the drive plate for transmitting the driving force of the engine. The connecting lug is welded (fixed welding) to fix the position to be placed on the front cover by projection welding, and then fixedly joined by welding the circumference.

Since the conventional connecting lug welds the circumferential portion after the tack welding to hold the position, there is a problem in that the production process is complicated and the productivity falls when mass production is performed.

Accordingly, the present invention has been proposed to solve the above problems, an object of the present invention is to reduce the manufacturing process when combining the connection lug for fixing the drive plate for transmitting the driving force of the engine to the front cover is advantageous for mass production To provide a connection lug coupling method of the torque converter to improve the productivity.

In order to achieve the object of the present invention as described above, the present invention is a front cover, an impeller coupled to the front cover to rotate together, a turbine disposed in a position facing the impeller, located between the impeller and the turbine A reactor is provided for converting the flow of oil from the turbine to the impeller side, a lockup clutch having a piston directly connecting the front cover and the turbine, and springs coupled to the lockup clutch to absorb shocks and vibrations acting in a rotational direction. It includes a torsional damper,

The front cover is coupled to the coupling lug is coupled to the drive plate for transmitting the driving force of the engine, the coupling lug is provided with a plurality of projections, the front cover is provided with a groove corresponding to the projection of the coupling lug, It provides a connection lug coupling method of the torque converter that is fixed by the forging after inserting the projection of the connecting lug into the groove of the front cover.

Preferably, the connecting lug is made by forging a plurality of protrusions toward the engaging portion of the front cover.

It is preferable that the plurality of protrusions provided on the connection lug are coupled to the front cover by four.

Preferably, the plurality of protrusions provided on the connection lug are coupled to the front cover by at least one of different sizes.

A plurality of protrusions provided on the connection lug is preferably provided on the bottom surface of the connection lug and coupled to the front cover.

In addition, the present invention is a front cover, an impeller coupled to the front cover to rotate together, a turbine disposed in a position facing the impeller, located between the impeller and the turbine and the flow of oil from the turbine to the impeller side A alternating reactor, a lockup clutch having a piston directly connecting the front cover and the turbine, a torsional damper provided with springs coupled to the lockup clutch to absorb shocks and vibrations acting in a rotational direction,

The front cover is coupled to the coupling lug is coupled to the drive plate for transmitting the driving force of the engine, the coupling lug is provided with a plurality of projections, the front cover is provided with a groove corresponding to the projection of the coupling lug, Provided is a torque converter for a vehicle manufactured by a connecting lug coupling method of a torque converter which is inserted into the groove of the front cover and fixedly coupled by forging.

The present invention makes a groove in the front cover, and presses the connection lug provided with the projection corresponding to the groove with a press to join the connection lug to the front cover by forging, thereby simplifying the process and reducing the manufacturing cost. Have

1 is a half sectional view of a torque converter for explaining an embodiment of the present invention.
2 is a view showing the shape of the connecting lug to explain an example of an embodiment of the present invention.
FIG. 3 is a diagram illustrating a front cover of a portion where a connection lug is to be disposed to explain an example of an embodiment of the present invention.
4 is a view showing the shape of the connecting lug to explain another example of an embodiment of the present invention.
FIG. 5 is a diagram illustrating a front cover of a portion where a connection lug is to be arranged to explain another example of the embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

1 is a half sectional view cut along the axial direction to explain an embodiment of the present invention, Figure 2 is a view showing the main portion of Figure 1, showing a vehicle torque converter.

The torque converter according to the embodiment of the present invention has a front cover 4 which is connected to the crankshaft on the engine side and rotates, an impeller 6 which is connected to the front cover 4 and rotates together, at a position facing the impeller 6. Disposed turbine 8 and reactor 10, also referred to as stator, which is located between impeller 6 and turbine 8 to change the flow of oil from turbine 8 to the impeller 6 side. It includes. The reactor 10 delivering oil to the impeller 6 side has the same center of rotation as the front cover 4. And the lockup clutch 14 used as a means for directly connecting the engine and the transmission is disposed between the front cover 4 and the turbine (8).

The lockup clutch 14 is formed in a substantially disk shape and has a piston 16 that can move in the axial direction.

And the piston 16 is coupled to the friction material 18 in frictional contact with the front cover (4).

In addition, the lockup clutch 14 includes a torsional damper 20 that absorbs the torsional force acting in the rotational direction of the shaft and attenuates vibration when the friction material 18 is in close contact with the front cover 4. do.

The torsional damper 20 is provided with springs 31 which absorb shocks and vibrations acting in the circumferential direction. These springs 31 are preferably arranged in the circumferential direction (rotational direction) and made of a compression coil spring.

These springs 31 are supported by a retaining plate 33 which is coupled to the piston 16 described above. The springs 31 are elastically supported by a driven plate 35 which is coupled to the turbine 8. That is, the springs 31 are elastically supported between the retaining plate 33 and the driven plate 35 to absorb vibrations and shocks in the rotational direction (circumferential direction).

The above-described driven plate 35 is coupled to the turbine 8 by rivets or the like. And the driven plate 35 may be coupled together by the above-mentioned rivets to the spline hub 37 for transmitting the driving force to the transmission side.

On the other hand, the connecting lug 41 is coupled to the front cover 4 described above. The connecting lug 41 is coupled to the drive plate 43 for transmitting the driving force of the engine.

As shown in FIG. 2, the coupling lug 41 is provided with a plurality of protrusions 41a on the bottom face side (bottom face side) in the direction toward the front cover 4. The connecting lug 41 may be made by forging, and the protrusions 41a of the connecting lug 41 may be manufactured by pressing by forging. It is preferable that four projections 41a of the connection lugs 41 are provided in one group.

On the other hand, the front cover 4 is provided with the same number of grooves 4a (shown in Fig. 3) as the protrusions 41a at positions corresponding to the protrusions 41a of the connecting lug 41 described above. In addition, the protrusion 41a of the connecting lug 41 preferably has a protruding length larger than the length (or depth) of the groove 4a. The length of the protrusion 41a of the connecting lug 41 is greater than the length (depth) of the groove 4a, so that the protrusion 41a is deformed when pressurized by the press, so that the protrusion 41a can be easily coupled to the groove 4a. To ensure that

In this embodiment of the present invention, the projection 41a of the connecting lug 41 is inserted into the groove 4a of the front cover 4, and the front cover 4 and the connecting lug 41 are pressed against each other by a press. do. Then, the connecting lugs 41 are coupled to the front cover 4 while the protrusions 41a of the connecting lugs 41 are deformed in the grooves 4a of the front cover 4.

Therefore, in the embodiment of the present invention, the front cover 4 and the connecting lug 41 can be easily combined with each other by simply forging the pressing process by forging, so that the assembly process is simple and easy for mass production and productivity can be improved. .

In particular, the embodiment of the present invention simply provides a projection 41a of the connecting lug 41 to the groove 4a provided in the front cover 4 without the need for temporary welding and temporary welding in comparison with the prior art. Temporary assembly can be achieved by fitting, making assembly work simpler.

Meanwhile, the drive plate 43 to which the driving force of the engine is transmitted may be coupled to the connection lug 41 by a separate fastening member 45.

4 is a view showing the connecting lug 41 to explain another example of the embodiment of the present invention. 5 shows a front cover 4 of a portion corresponding to the connecting lug 41 to explain another example of the embodiment of the present invention.

The connection lug 41 of another example of the embodiment of the present invention may have at least one of the projections 41a (for convenience, the same reference numerals as the above-described example) having different diameters. The grooves 4a (shown in FIG. 5) of the front cover 4 corresponding to the protrusions 41a of the connecting lugs 41 are formed to have a size corresponding to the protrusions 41a of the connecting lugs 41. desirable.

As such, as in another example of the embodiment of the present invention, it is preferable that one of the protrusions 41a of the connection lug 41 has a diameter (or size) different from the other protrusions 41a. When assembling, the orientation can be easily checked to facilitate assembly.

Another example of this embodiment of the present invention also fits the protrusions 41a of the connecting lug 41 into the grooves 4a of the front cover 4, and then squeezes them by forging. Then, as described above, the protrusions 41a of the connection lugs 41 are fixedly coupled to the front cover 4 while deformation occurs in the grooves 4a of the front cover 4. .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And it goes without saying that the invention belongs to the scope of the invention.

4. Front cover, 4a. home,
6. impeller,
8. turbine, 10. reactor,
14. lock-up clutch, 16. piston,
18. friction material, 20. torsional dampers,
31. spring, 33. retaining plate,
35. driven plate, 37. splined hub,
41. Connecting lugs, 41a. spin,
43. Drive plate, 45. Fastening member

Claims (6)

Front cover; An impeller coupled to the front cover to rotate together; A turbine disposed at a position facing the impeller; A reactor positioned between the impeller and the turbine to change oil flow from the turbine to the impeller side; A lockup clutch having a piston directly connecting the front cover and the turbine; A tonic damper coupled to the lockup clutch and provided with springs to absorb shock and vibration acting in a rotational direction,
The front cover is coupled to the coupling lug is coupled to the drive plate for transmitting the driving force of the engine,
The connecting lug is provided with a plurality of projections,
The front cover is provided with a groove corresponding to the protrusion of the connecting lug,
The connecting lug coupling method of the torque converter that is fixed by pressing the forging by inserting the projection of the connecting lug into the groove of the front cover. The method according to claim 1,
The connecting lug
The coupling lug coupling method of the torque converter is made by forging a plurality of projections toward the engaging portion of the front cover. The method according to claim 1,
And a plurality of protrusions provided on the connecting lug, the connecting lug of the torque converter being coupled to the front cover. The method according to claim 1,
And a plurality of protrusions provided on the connection lug are coupled to the front cover by forming at least one or more different sizes. The method according to claim 1,
The plurality of protrusions provided on the connecting lug
A coupling lug coupling method of a torque converter provided on a bottom surface of the coupling lug and coupled to the front cover. A torque converter for a vehicle manufactured by the connecting lug coupling method of the torque converter according to claim 1.

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