The present invention concerns a shift-assisting device for a manually shiftable manual transmission.
Automated manual transmissions are known from the state of the art which correspond to manually shiftable manual transmissions in regard to their main components in which the shifting clutch as well as the selection and shifting process for the individual gears takes place using pneumatically or hydraulically activatable actuators. In this connection, the gear shift shaft is rotated using a selection actuator for path selection and moved axially through a shifting actuator for shifting.
Usually the pneumatic piston is attached to the cantilever arm in transmissions of this type and arranged parallel to the flow of the shifting force, whereby the activation by a trailed valve is executed in the piston as a function of the shifting force.
A pressure-regulating device for an activation apparatus preferably constructed as a piston-cylinder arrangement in a transmission of this type is known, for example, in the framework of German Patent DE 102 49 341 by the applicant. It includes a pressure-generating device, a main cylinder regulating facility with corresponding control pressure lines, a sensor for ascertaining the pressure in a control pressure line, at lest one pressure-controlled actuator, shift valves for connecting the control pressure lines to feeder lines to pressure chambers of the activation apparatus and a pressure regulation apparatus for adapting the pressure level of the main pressure line to the control pressure level for the activation apparatus. Here the pressure regulation apparatus is constructed as a timed electromagnetic shift valve. The piston-cylinder arrangement is connected to the gearshift shaft of the transmission so that the latter is axially moveable for executing a gear selection.
To assist shifting pneumatically an apparatus is known in connection with manually shiftable manual transmission, whereby a constant force is exerted for shifting or for axially moving the gear shift shaft by a piston-cylinder arrangement. The supporting apparatus is activated when the shifting linkage covers a specified path against the force of a spring.
The present invention is based upon the objective of indicating a shift-assisting device for a manually shiftable manual transmission in which activation of a shift by the driver is assisted by a suitable apparatus as a function of driver wishes. In this connection, as many components as possible of the shifting automation of an automatic manual transmission should be used for cost reduction.
Accordingly, a shift-assisting device for a manually shiftable manual transmission is proposed which moves the gear shift shaft or a shift fork of the shifting device of the transmission, axially for shifting the selected gear.
In accordance with the invention, a force sensor is provided in the flow of force of the manual shifting components, for example on the shift lever, whose signals are evaluated by an electronic control unit in order subsequently to control a piston-cylinder arrangement, which can be activated by valves, which stands in operative connection with the gear shift shaft or a shift fork for its axial motion. In accordance with the invention, the activation pressure of the piston-cylinder arrangement is dependent upon the force exerted on the shift lever by the driver.
In this connection, at least one pressure-regulating valve is actuated by an electronic control unit in a first embodiment of the invention, which preferably actuates as shift valves, constructed as magnetic valves, for activating the cylinder-piston arrangement. The cylinder-piston arrangement can be constructed capable of being activated pneumatically or hydraulically.
A further embodiment of the invention provides that the functionality of the shift valves is incorporated into at least one pressure-regulating valve so that preferably two pressure-regulating valves, directly connected with the cylinder-piston arrangement for shift support, are provided and are respectively connected with one side of the cylinder-piston arrangement, whereby the separate shift valves are dispensed with.
Through evaluation of the force signal in the electronic control unit, the pressure to be adjusted in the servo-cylinder or in the cylinder-piston arrangement is adapted to driver wishes. Advantageously, each desired level of force can be set, whereby harmful force increases are prevented.
Furthermore, components advantageously already present in automated manual transmissions, such as, for example, the cylinder-piston arrangement, the pressure sensors and the pressure-regulating and shift valves can be used.
The invention will be explained in greater detail below on the basis of the appended figures, wherein:
In accordance with
Furthermore the shift valves 5, 6 are connected with the electronic control unit 3 through control lines 9 or 10. As can be gathered from
The shift valves 5, 6 are connected with feeders 12 or 13 with the cylinder-piston arrangement 14 so that by activating the shift valves 5, 6 with the electronic control unit 3, the piston 15 can be moved axially in the desired direction to axially move the gear shift shaft 16, connected with the piston or the shift fork 19 for the purpose of shifting.
In accordance with the invention, the activation pressure of the cylinder-piston arrangement 14 is dependent upon the force F_shift exerted by the driver on the shift lever. For this purpose, a force sensor 17 is provided in the flow of force of the manual shift components, preferably on the shift lever 18, whose signals are forwarded over a control line 20 to the electronic control unit 3, whereby after the evaluation of the signals of the force sensor 17 has taken place in the electronic control unit 3, the pressure-regulating valve 1 is controlled to adjust the control pressure in the control pressure line 4 such that the control pressure and consequently the pressure upon activation of the cylinder-piston arrangement 14 for moving the interrupter shaft 16 or the shift fork 19 corresponds to the driver's wishes or is proportional to the force exerted by the driver on the shifting fork, or is set in accordance with a characteristic curve filed in the electronic control unit.
A further embodiment of the shift-assisting device of the invention is represented in
Of course any constructional formation, in particular any spatial arrangement of the components of the shift-assisting device of the invention inherently as well as in relation to one another and to the extent that it is technically appropriate also falls under the scope of protection of the present claims without influencing the function of the shift-assisting device as it is indicated in the claims even if these formations are not explicitly represented in the figures or in the description.
1 Pressure-regulating valve
2 Control line
3 Electronic control unit
4 Control pressure line
5 Shift valve
6 Shift valve
7 Main pressure line
8 Pressure sensor
9 Control line
10 Control line
11 Control line
12 Feeder line
13 Feeder line
14 Cylinder-piston arrangement
15 Piston
16 Gear shift shaft
17 Force sensor
18 Shift lever
19 Shift fork
20 Control line
21 Pressure-regulating valve
22 Pressure-regulating valve
23 Pressure sensor
24 Pressure sensor
25 Control line
26 Control line
27 Control line
28 Control line
Number | Date | Country | Kind |
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10 2004 056 609.7 | Nov 2004 | DE | national |
This is a national stage completion of PCT/EP2005/012410 filed Nov. 19, 2005 which claims priority from German Application Serial No. 10 2004 056 609.7 filed Nov. 24, 2004.
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP05/12410 | 11/19/2005 | WO | 5/23/2007 |