FI71982C - Semi-automatic gear system. - Google Patents

Description

The invention relates to a semi-automatic gearbox for vehicles, work machines or the like, which semi-automatic gearbox comprises a synchronized gearbox sensors that supply signals corresponding to the quantities measured to the electronic control unit to select the gear corresponding to the driving situation.

Semi-automatic transmissions are previously known and commonly used solutions in transmission systems for vehicles and the like. Conventional semi-automatic gearboxes are arranged in such a way that the clutch and the gearbox are of such a special construction that no clutch pedal or the like is required at all. Instead, such systems have a normal gear selector to select the desired 20 gears. In such systems, the clutch and the gearbox must generally be of special construction, and a kind of centrifugal clutch is usually used as the clutch, with which the transmission depends on the engine speed. A torque converter is usually still used between the clutch and the gearbox, which compensates for jerks due to kvtkey-25 shifting and protects the gearbox from breakage.

Such a conventional system, e.g. when installed in a vehicle, differs from a manual transmission which is normal for the driver of the vehicle only in that the clutch pedal is omitted or that the clutch pedal does not have to be used when selecting a gear. The driver of the vehicle thus always selects the desired gear. Thus, the driver always has to focus on the choice of gear and divert his attention from the driving performance itself.

The object of the present invention is to provide a novel semi-automatic gearbox which avoids the drawbacks associated with the previously known solutions. The invention is characterized in that a freewheel coupling in both directions of rotation is connected between the output shaft of the gearbox and the drive shaft on which the force is transmitted to the traction gear to connect said axles to each other

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The invention achieves several advantages over previously known gearboxes. When using the gearbox according to the invention, driving always takes place in the optimum gear. Excessive traction as well as overdriving is eliminated, resulting in reduced engine wear and fuel consumption. The driver of the vehicle can better focus on following the traffic because there is no need to “think” about changing and no need to take your hands off the steering wheel.

The invention will now be described, by way of example, with reference to the accompanying drawing, which schematically shows a transmission system of a vehicle or the like using a semi-automatic transmission according to the invention.

The figure of the drawing schematically shows a transmission system 20 comprising a motor 10, a clutch 14, a gearbox 16, a two-part transmission shaft comprising a gearbox output shaft 18a and a drive shaft 18b, a freewheel 21 and a traction gear 22. The freewheel 21 is mounted in both directions of rotation between the output shaft 18a and the drive shaft 18b to connect said shafts 18a and 18b to each other. The clutch 14 is a conventional clutch used in connection with manual transmissions and the gearbox 16 is a completely normal synchronous transmission. The only difference between the gearbox 16 and conventional drive transmissions is in its transmission mechanism 4. In the transmission according to the invention, the transmission mechanism 4 is electrically 30 or electrically controlled, and solenoids, linear motors, electrically controlled hydraulic or pneumatic valves or the like can be used. The power control of the motor 10 is handled in the normal way by a power regulator, such as the so-called by a accelerator pedal 11 or the like, and a measuring sensor 12 is further mounted on the engine 10, which measures the instantaneous torque of the engine 35. A first measuring sensor 20a measuring the rotational speed of said output shaft 18a is mounted in connection with the output shaft 18a of the gearbox, and a second measuring sensor 20b measuring the rotational speed of the driving shaft 18b is mounted in connection with the drive shaft 18b. The sensor 20b can, of course, be mounted in some other suitable location after the gearbox output shaft 18a and the freewheel 21, where it measures a quantity directly proportional to the driving speed of the drive-5. As already stated above, the clutch IA is a quite conventional clutch used in the transmission, which is operated by the clutch pedal 6 or the like.

To switch on the gears, the gearbox is equipped with an electric field circuit, the structure of which is described below. An electrical control unit 2 is connected to the switching circuit, which receives signals from the motor torque sensor 12 and the transmission output shaft 18a and the drive shaft speed sensors 20a and 20b. The control unit 2 has a memory in which the necessary setpoints 15 for the engine torque and the rotational speed of the drive shaft or the driving speed of the vehicle for each gear of the gearbox can be stored in advance. The setpoints are not exact values of torque and rotational speed, but are ranges with a certain range in which each gear can operate. The control unit 2 compares the signals received from the outputs 20,20a and 20b with the setpoints in its memory and provides the necessary pulses to the transmission mechanism 4 of the gearbox 16 to select the most suitable gear for the driving situation.

Also connected to the switching circuit is a control unit 8 with the necessary switches 25, such as keys 9, for manually selecting the direction of travel (forward 1, reverse R) and neutral V. The control unit 8 manually feeds the commands to the electric control unit 2, which gives pulses according to these commands. for the transmission mechanism 4. The control unit 8 also has a switch (key 0) with which, if necessary, a lower gear can be engaged, e.g. when accelerating the vehicle. By pressing the key 0, the control pulse given by the electronic control unit 2 is thus bypassed. The switching circuit is naturally connected to a power supply 7, which provides the necessary current to transmit the pulses. The special feature of the electrical switching circuit is that in the normal situation the circuit of the switching circuit 35 is open, which means that the transmission mechanism 4 of the gearbox is not able to shift the new gear on. The switching circuit is turned on when the second sensor 20b indicates that the vehicle speed is zero or when the first and second sensors 20a and 20b indicate that the speeds of rotation of the transmission output shaft 18a and the drive shaft 18b are different. A difference between the rotational speeds of the shafts 18a and 18b is formed when the traction is disengaged from the transmission system 5, i.e. when the accelerator pedal 11 is raised. When the accelerator pedal 11 is raised, the freewheel 21 disengages the transmission output shaft 18a and the drive shaft 18b. In this case, the electrical circuit of the switching circuit closes, whereby the transmission mechanism of the transmission shifts to a new drive gear. Thus, regardless of the driving situation 10, the driver himself always selects the desired driving gear using the accelerator pedal 11.

Next, the operation of the semi-automatic transmission according to the invention will be described in more detail. When starting to drive, switch on the nor-15 painter. The second speed sensor 20b then gives a signal to both the control unit 8 and the electric control unit 2, which indicates that the driving speed is zero. In this case, the circuit closes and the operating impulse given by the electric control unit 2 passes to the transmission mechanism 4 of the gearbox, which shifts the gear to neutral if the gear was left in a non-neutral position the last 20 times when driving. The motor 10 can then be started.

When the vehicle starts to reverse, the idler pedal 6 is normally depressed, whereby and the engine 10 is disengaged from the transmission. The clutch 6 25 only needs to be used when starting and stopping, because the freewheel 21 handles the other disengagements of the transmission. When the motor 10 is "disconnected", the R key is pressed on the keypad 9 of the control unit 8 (both the R and 1 keys only work when the speed is zero). The command given by the R key bypasses the electric control unit 2 and passes 30 to the transmission mechanism 4 of the gearbox, which shifts into reverse. The clutch pedal 6 is then normally raised and the vehicle can be reversed. To stop driving, depress the clutch pedal 6. When the vehicle speed is zero, the electric control unit 2 shifts the gear into neutral via the transmission mechanism 4.

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When proceeding, proceed as before, but press the 1 key on the keypad 9 of the control unit 8. If driving is interrupted by depressing the clutch pedal 6 and braking the vehicle to zero, the electric control unit 2 shifts all gears to neutral. If, on the other hand, the speed is increased, the electric control unit 2 selects the rotational speed from the second sensor 20b and the torque sensor 12 and the speed memory predetermined in the electric control unit 2 When the accelerator pedal 11 is then raised, the freewheel 21 detaches the transmission output shaft 18a from the drive shaft 18b. A difference is then formed between the rotational speeds of said shafts 18a and 18b 10, which is registered by the control unit 2 on the basis of the signals received from the first and second measuring sensors 20a and 20b. Said difference in rotational speeds closes the circuit, whereby the gearbox shifts to the correct gear. During driving, the speed sensor 20b continuously measures the speed of the drive and the torque sensor 12 to the torque of the motor and gives the corresponding signals to the electric control unit 2 and the control unit 8. In this case, it is advantageous if, for example, an alarm is installed in connection with the control unit 8. e.g., an indicator light that indicates the need for replacement. This indicator light does not necessarily indicate which gear is required, but that the wrong gear is engaged in relation to the current driving speed. The situation is then rectified by lifting the accelerator pedal 11, whereby the correct gear is engaged immediately. If desired, the electronic control unit 2 can be bypassed with the 0 key on the keypad 9 of the control unit 8 and the so-called bypass-25 gear on. Pressing the 0 key and releasing the accelerator pedal 11 then drops the gear down one step, which is often necessary, for example, in overtaking situations. Similarly, when driving, the neutral gear can be engaged by pressing the V key if the vehicle is to roll freely.

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The system according to the invention can be used in all kinds of vehicles and work machines. In heavy vehicles, such as trucks, it is advantageous if several parallel speed and torque ranges for the same gear have been pre-entered in the memory of the electric control unit 2. The areas can then be selected, for example, depending on the load, terrain and other conditions. The system according to the invention can be retrofitted to conventional manual gearboxes 71982 1. In order to convert a standard manual gearbox into a semi-automatic gearbox according to the invention, the following measures must be taken: A torque sensor must be installed in the engine and speed sensors must be installed in connection with the gearbox output shaft and the drive shaft. The output shaft and the drive shaft of the gearbox must be connected to each other by a freewheel which engages in both directions of rotation. An electric control unit 2 and a control unit 8 are installed, which are connected to said sensors according to the invention. The normal mechanical transmission mechanism is removed from the gearbox and replaced in place by an electrically controlled transmission mechanism according to the invention. No other changes need to be made compared to conventional gearboxes. In the system according to the invention, the selection of the gear is automated, but the change is always performed by the driver using the accelerator pedal.

The invention is not limited to the embodiment according to the preferred embodiment shown in the description and the drawing, but may be modified within the scope of the inventive idea defined by the appended claims.

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Claims (5)

7 A semi-automatic transmission for vehicles, implements or the like, the semi-automatic transmission comprising a synchronous gearbox 5 (16) having an electrically controlled gear shift mechanism (4), an electric control unit (2) controlling the shift mechanism (4), and a motor torque (10) , sensors (12, 20a and 20b) measuring the rotational speed and travel speed of the gearbox output shaft (18a), which supply signals corresponding to the quantities measured to the electric control unit (2) to select a gear corresponding to the driving situation, characterized in that the gearbox output shaft (18a) and a freewheel (21) engaging both directions of rotation is connected between the drive shaft (18b) on which the force is transmitted to the drive gear (22) to connect said shafts (18a and 18b) to each other and that the transmission circuit is an electric circuit 15 adapted to open and close the motor (10) with the accelerator pedal (11) or equivalent power regulator. 1 Claims V Ί 9 8 2 A semi-automatic gearbox according to claim 1, characterized in that the electric circuit of the gearbox is adapted to be closed when the speeds of rotation of said gearbox output shaft (18a) and drive shaft (18b) differ, i.e. when the accelerator pedal (11) is raised, i.e. when the power of the motor (10) is substantially reduced, or when the driving speed of the vehicle, i.e. the speed of rotation of the drive shaft (18b), is zero, and that otherwise said circuit is adapted to be open. Semi-automatic transmission according to claims 1 and 2, characterized in that the electric control unit (2) is adapted to perform gear selection by comparing the set speed and engine torque setpoints in its memory with the instantaneous values supplied by said sensors (12,20a and 20b) and selecting the gearbox. a transmission mechanism (4) for a gear corresponding to the driving situation, which is adapted to engage by releasing the accelerator pedal (11), i.e. by substantially reducing the power of the engine (10). 35 Semi-automatic gearbox according to one of the preceding claims, characterized in that a control unit 8 71982 1 (8) is connected to the switching circuit, which has keys (9) or similar switches which are manually selectable when starting in the desired direction and have an electric control unit ( 2) can be bypassed to shift the gear to neutral and / or to a gear smaller than at least one step. 5 Semi-automatic transmission according to Claim 4, characterized in that a signaling device, such as an indicator light, is connected to the control unit (8) and is adapted to give an alarm when a gear unsuitable for the driving situation is engaged. 10 15 20 25 30 35 71982 9