JPH022021B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a power transmission device, particularly a transmission for a diesel vehicle.

BACKGROUND TECHNOLOGY As is well known, the basic structure of a conventional transmission for a diesel vehicle consists of a torque converter and a reversing gear, and a direct coupling clutch and a speed change clutch are provided in front of the torque converter. , the driving force from the diesel engine is transmitted to the axle by engaging the gear shift clutch when accelerating at the time of starting, changing the gear by the torque converter, and transmitting the drive force to the axle by engaging the gear shift clutch when driving at high speed. disengage and engage the direct coupling clutch,
The driving force from the diesel engine is transmitted directly to the axle without going through a torque converter. On the other hand, the reversing gear device has one speed for both forward and forward travel, and has a forward rotation clutch and a reverse rotation clutch for switching between forward and reverse travel. In this way, during forward or reverse operation, after switching to either the forward or reverse clutch, acceleration operation via the torque converter and high speed under direct connection with the diesel engine are performed as described above. Driving is performed.

That is, FIG. 2 of the accompanying drawings schematically shows a typical arrangement of the basic structure of a transmission for a conventional diesel vehicle. In the figure, E indicates a diesel engine, and I indicates an input shaft. , I ₁ is a direct coupling shaft, V is a transmission clutch, D is a direct coupling clutch, T is a torque converter, R is a forward rotation clutch R ₁ and a reverse rotation clutch R ₂
O represents the output shaft, respectively, the hollow turbine shaft T ₁ of the torque converter T and the direct coupling shaft I ₁ are the freewheel F
In addition to being connected to the reversing gear device R,
Various gears G ₁ to _{G 5} are appropriately meshed and arranged, and among these gears, gears G 4 and G ₅ are
They are interconnected by a reversing shaft S. This transmission performs the above-mentioned operation by appropriate switching operations of a gear change or direct coupling clutch and a forward rotation or reverse rotation clutch. However, such a conventional transmission for diesel vehicles does not It has a complicated structure, is large in size, is not capable of high-speed operation, has a single speed for both forward and reverse operations, and is not easy to maintain.

Problems to be Solved by the Invention Therefore, the present invention solves the above-mentioned problems in the conventional products, and enables two-speed gearing with a relatively simple configuration, is easy to maintain, and is inexpensive. The object is to obtain an inexpensive and improved power transmission device, in particular a transmission for diesel motor vehicles.

Means for Solving the Problems In order to achieve this object, the present invention, on the one hand, disposes only the speed change clutch on the input shaft side of the torque converter, omitting the direct coupling clutch, and also on the turbine shaft side of the torque converter. is hollow cylindrical,
This turbine shaft is coaxially and rotatably supported on the extended shaft of the input shaft, and this turbine shaft is integrated with the low-speed drive gear of the high-low speed clutch, which is integrally provided on the extended shaft of the input shaft and coaxially with this turbine shaft. A hollow cylindrical output shaft is passed through the output shaft, and a freewheel is provided between the output shaft and the turbine shaft, and the driving force from the diesel engine is changed in speed by the turbine shaft of the torque converter and is transferred to the hollow cylindrical output shaft. On the other hand, the low-speed clutch, which is also capable of variable-speed operation via the torque converter as described above, and the high-speed clutch, which is only capable of direct-coupling operation, are installed coaxially with the extended shaft of the input shaft. The present invention is characterized in that it includes high and low speed clutches that are integrally arranged opposite each other, thus allowing the high and low speed clutches to also include the operation of a conventional direct coupling clutch.

Embodiments Hereinafter, the present invention will be explained in detail based on FIG. 1 of the accompanying drawings showing one embodiment thereof.

As shown in the figure, in the transmission according to the present invention, power is transmitted from a diesel engine 1 to a transmission 3 via an input shaft 2. It consists of a clutch 6. In this way, the driving force of the diesel engine 1 is connected on the one hand to the torque converter 5 via the transmission clutch 4, and the driving force of the input shaft 2 is transmitted to the input side of the transmission clutch 4, and the output side thereof is transmitted. The hub 7 is transmitted to the torque converter 5 via the hollow impeller shaft 8 of the torque converter 5 connected to this hub 7;
The input shaft 2 extends through the transmission clutch 4 and the hollow impeller shaft 8 of the torque converter 5 and its hollow turbine shaft 9, and is arranged coaxially with the extension shaft ₂₁ of the input shaft 2. The input side hubs 12 and 13 of the low speed clutch 10 and the high speed clutch 11, which are arranged facing each other in the high speed and low speed clutch 6, are fixed to each other so that the driving force is also transmitted to the high and low speed clutch 6.

A hollow cylindrical output shaft 1 is attached to the carrier 14 on the output side of the low speed clutch 10 of the high and low speed clutch 6.
A low-speed drive gear 16 is integrally provided via 5, and this low-speed drive gear 16 is connected to the hollow turbine shaft 9 of the torque converter 5 via a freewheel 17 by its hollow cylindrical output shaft 15. It is rotatably supported on the shaft. Also, the carrier 1 on the output side of the high-speed clutch 11 of the high-low speed clutch 6
A high-speed drive gear 20 is integrally connected to 8 via a hollow cylindrical output shaft 19, and the hollow cylindrical output shaft 19 is rotatably connected to the extension shaft ₂₁ of the input shaft 2. supported. In addition, low speed drive gear 1
6 and the high-speed drive gear 20 are a low-speed driven gear 22 and a high-speed driven gear 2 fixed to the reverse rotation shaft 21.
3 are interlocked with each other. Further, a normal rotation gear 24 and a reverse rotation gear 25 are rotatably supported on the reverse rotation shaft 21, and splines 26 and 27 are attached to the normal rotation gear 24 and the reverse rotation gear 25, respectively. Attached to these splines 26 and 27 is a disengagement clutch 30 having internal splines 28 and 29, respectively, which can be engaged and disengaged. It is spline-coupled so that it can move freely in any direction. Further, the forward rotation gear 24 is meshed with an output gear 32 fixed to an output shaft 31, while the reverse rotation gear 25 is meshed with an intermediate gear 34 fixed to an intermediate shaft 33. It meshes with the output gear 32 via an intermediate gear 35 fixed to the shaft 33.

Although the present invention has the above configuration,
Next, its operation will be explained.

First, the driving force from the diesel engine 1 is applied to the speed change clutch 4 in the case of speed change operation such as during acceleration.
The input clutch plate 41 spline-coupled to the hub 7 and the output clutch plate 43 spline-coupled to the carrier 42 are connected to clutch operating pressure oil supplied via a solenoid valve (not shown) by switching from a hydraulic source. Therefore, by pressing through the piston 44, they are engaged with each other, and the driving force from the input shaft 2 is transferred from the carrier 42 of the clutch 4, through the clutch plates 41 and 43, and from the hub 7 of the transmission clutch 4 to the torque converter 5. is transmitted to the hollow impeller shaft 8. In this way, by rotating the impeller wheel 51 that is integrally formed with the impeller shaft 8, oil is circulated within the circuit 52 of the torque converter 5, and its pump action rotates the turbine wheel 53. from the hollow cylindrical output shaft 15 via the freewheel 17.
The driving force is transmitted from the low speed drive gear 16 to the low speed drive gear 16. The driving force is further transmitted to the reverse rotation shaft 21 via the low-speed driven gear 22 that meshes with this gear 16, and the forward rotation gear 2 that is rotatably inserted into the reverse rotation shaft 21.
By engaging the disengagement clutch 30 with either the gear 4 or the reversing gear 25, the gear 2
From gear 4, normal rotation is transmitted to the output shaft 31 via the output gear 32 that meshes with it, and from gear 25, intermediate gears 34 and 35 that mesh with this
The output shaft 31 passes through the output gear 32 which is meshed with the output gear 32.
The reverse rotation will be transmitted while changing the speed.

Next, in the case of high-speed operation at a constant speed, the transmission clutch 4 is disengaged to cut off the transmission to the torque converter 5, and the driving force from the input shaft 2 is transferred to the input shaft 2.
By engaging either the low speed clutch ₁₀ or the high speed clutch 11 of the high/low speed clutch 6, which is provided integrally with the extension shaft 21 of the high/low speed clutch 6, the transmission is directly transmitted to the high/low speed clutch 6. That is, in the case of low-speed operation, the input clutch plate 101 is spline-fitted to the hub 12 of the low-speed clutch 10;
The output clutch plate 102 spline-fitted to the carrier 14 is engaged with each other by pressing the piston 103 with clutch hydraulic oil supplied via a switching solenoid valve (not shown) from a hydraulic source; The driving force from the input shaft 2 is transmitted to the low speed drive gear 16 via the low speed clutch 10. The transmission path of the driving force from the low-speed drive gear 16 to the output shaft 31 is the same as in the case of the variable speed operation described above, and the output shaft 31 has a constant low-speed rotation that can be switched to either normal rotation or reverse rotation. The driving force is transmitted under At this time, even if there is an output rotation from the torque converter 5, the turbine shaft 9
Since the freewheel 17 is interposed between the output shaft 15 and the hollow cylindrical output shaft 15 on the output side of the low speed clutch 10, the turbine shaft 9, which rotates slowly relative to the hollow cylindrical output shaft 15, only rotates idly. Therefore, the transmission of power from the turbine shaft 9 to the low speed clutch 10 is cut off.

In addition, in the case of high-speed operation at a constant speed, the input clutch plate 111 spline-coupled to the hub 13 of the high-speed clutch 11 and the output clutch plate 112 spline-coupled to the carrier 18 are connected from a hydraulic source. The pistons 113 are pressed into engagement by clutch hydraulic oil supplied through a switching solenoid valve (not shown), so that the driving force from the input shaft 2 is transferred to the high-speed drive gear 20 through the high-speed clutch 11. to be communicated to. This gear 2
The transmission of the driving force from 0 to the output shaft 31 via the high-speed driven gear 23 that meshes with this gear is the same as in the case of the variable speed operation described above, and the output shaft 31 is switched to either normal rotation or reverse rotation. It will be transmitted at high speed rotation at a constant speed.

Effects of the Invention The present invention has the above-described configuration and operation, and includes connecting the output side of a torque converter to the output side of a low-speed clutch of a high-low-speed clutch that acts as a direct coupling clutch via a freewheel. This makes it possible to share the driving gear and the driven gear, thereby reducing the number of required gears.Also, since the low-speed clutch has the function of a direct coupling clutch, it is possible to use a direct coupling clutch. It is no longer necessary to separately provide a two-speed transmission that enables high-speed operation, and it is possible to create a two-speed transmission with a very simple configuration. , it exhibits excellent effects such as easy maintenance and cost reduction.

[Brief explanation of drawings]

FIG. 1 is an overall schematic diagram showing one embodiment of the present invention, and FIG. 2 is a schematic diagram showing an example of a conventional transmission for a diesel vehicle. 1... Diesel engine, 2... Input shaft, 3...
Transmission device, 4... Speed change clutch, 5... Torque converter, 6... High/low speed clutch, 8... Impeller shaft, 9... Turbine shaft, 10... Low speed clutch, 11... High speed clutch, 15, 19... ...Hollow cylindrical output shaft, 16...Low speed drive gear, 17...
...freewheel, 20...high-speed drive gear, 21
... Reverse rotation shaft, 22 ... Low speed driven gear, 23 ... High speed driven gear, 24 ... Normal rotation gear, 25 ... Reverse rotation gear, 30 ... Disengagement clutch, 31 ... Output shaft,
32... Output gear, 33... Intermediate shaft, 34, 35
...Intermediate gear.

Claims (1)

[Claims] 1. Consisting of an input shaft that transmits driving force from an engine such as a diesel engine, and a transmission connected to the input shaft, the transmission is connected to the input shaft. It consists of a transmission clutch, a torque converter connected to its output side via an impeller shaft, and a high/low speed clutch connected to an input shaft on the rear side of the torque converter,
The high-speed and low-speed clutches are integrally provided with high-speed and low-speed clutches each having a high-speed drive gear and a low-speed drive gear, respectively, and the impeller shaft and turbine shaft of the torque converter are configured to be hollow, and the inside of this hollow portion is inputted. The extension shaft of the shaft is made to pass freely through the input shaft, and the input side of the high/low speed clutch is fixed to the extension shaft of the input shaft, and the turbine shaft of the torque converter and the low speed drive gear of the high/low speed clutch are connected via a freewheel. A power transmission device characterized in that the power transmission device is formed by interconnecting two parts. 2. The high/low speed clutch includes a low speed clutch and a high speed clutch that are integrally arranged facing the extension axis of the input shaft, and a low speed driven gear and a high speed clutch that mesh with the low speed drive gear that is integral with the output shaft of the low speed clutch. A reversing shaft has a high-speed driven gear that meshes with a high-speed drive gear that is integrated with the output shaft, and
A forward rotation gear and a reverse rotation gear that are connected to and disengaged from the reverse rotation shaft via a forward rotation or reverse rotation clutch, an output shaft that has an output gear that meshes with the forward rotation gear, and a reverse rotation gear and an output gear. and an intermediate shaft to which intermediate gears are respectively meshed with each other.
The power transmission device described in section.