초록 ▼

Devices and methods for suspension of a vehicle cabin using additional volumes of air for utility vehicles. An example device includes at least one air spring for suspension of the utility vehicle cabin, the air spring being arranged between the cabin and a base frame, and a control device for contr

Devices and methods for suspension of a vehicle cabin using additional volumes of air for utility vehicles. An example device includes at least one air spring for suspension of the utility vehicle cabin, the air spring being arranged between the cabin and a base frame, and a control device for controlling the supply and discharge of at least one additional volume to/from the air spring. At predefinable speed or acceleration values of a movement of the air spring, the additional volume is supplied or discharged by means of the control device in such a way that, in end-of-travel regions of the air spring, the profile of a force/travel air spring characteristic during an extension and/or return spring movement of the air spring does not exhibit any incline or exhibits only a small incline in a first range and in a second range.

대표청구항 ▼

1. A method for suspension of a vehicle cabin of a utility vehicle having at least one adjustable air spring being capable of accepting and expelling at least one additional volume of air and arranged between the utility vehicle cabin and a base frame of the vehicle, the at least one air spring cont

1. A method for suspension of a vehicle cabin of a utility vehicle having at least one adjustable air spring being capable of accepting and expelling at least one additional volume of air and arranged between the utility vehicle cabin and a base frame of the vehicle, the at least one air spring controllable by a control device, the method comprising: at a sensor measuring one of vertical acceleration or vertical speed of the vehicle cabin;at a control device, automatically determining at the control device mode of spring operation based on the measured acceleration or speed of the vehicle cabin; andautomatically controlling transfer of air to and from the at least one air spring based on the determined mode of spring operation; andwherein a first mode of spring operation is configured to provide for smooth road operation, if the measured acceleration or speed of the vehicle cabin is within a first range;wherein a second mode of spring operation is configured to provide for rough road operation, if the measured acceleration or speed of the vehicle cabin is within a second range that is higher than the first range;wherein the first mode does not include a comfort zone and the second mode has a comfort zone having a non-zero range of motion, the air spring being connected to the air container in the comfort zone. 2. The method of claim 1, wherein a third mode of spring operation is configured to provide for transitional road operation, if one of the measured acceleration or speed of the vehicle cabin is within a third range. 3. The method of claim 1, wherein a third mode of spring operation is configured to provide for transitional road operation, within a threshold period of time after movement of the vehicle increases to a value greater than a threshold amount. 4. The method of claim 1, wherein controlling further comprises adding the at least one additional volume of air to the at least one air spring if the measured acceleration or speed is at a second predefined value during an extension movement and a return movement of the at least one air spring in a first and a second travel regions. 5. The method of claim 1, wherein controlling further comprises adding the at least one additional volume of air to the at least one air spring if the measured acceleration or speed is at a third predefined speed or acceleration value during an extension movement and removing the at least one additional volume of air from the at least one air spring during a return movement of the at least one air spring in a first travel region and a second travel regions. 6. The method of claim 1, further comprising the control device determining the spring mode of operation to be a third mode of operation if the measured acceleration or speed is within a third range that is higher than the first and second ranges, wherein the third mode of spring operation is configured to leave the container connected to the air spring throughout an entire extension and a corresponding return movement in a first travel region and an entire compression and a corresponding return movement in a second travel region. 7. The method of claim 6, further comprising the control device determining the spring mode of operation to be a third mode of operation if the measured acceleration or speed is within a fourth range that is higher than the first, second, and third ranges, wherein the third mode of spring operation is configured to leave the container connected to the air spring through the extension movement in the first travel region and the compression in the second travel region and to disconnect the container from the air spring during the corresponding return movement in the first travel region and the return movement in the second travel region. 8. A utility vehicle having a cabin and a base frame, the vehicle comprising: a cabin;a base frame;and a suspension device comprising: one or more sensors configured to measure one of vertical acceleration and/or vertical speed of the vehicle cabin;at least one air spring;a container configured to hold a volume of air;a valve configured to transfer air between the container and the at least one air spring; anda control device in signal communication with the sensors and the valve, the control device configured to automatically determine mode of spring operation based on the measured acceleration or speed and automatically control operation of the valve transfer of air to and from the at least one air spring based on the determined mode of spring operation, wherein if the measured acceleration or speed is within a first predefined range, the valve removes a volume of air from at least one air spring when an extension movement of the at least one air spring occurs in a first or a second travel region and adds the additional volume of air to the at least one air spring when a return movement of the at least one air spring occurs in the first or second travel region, wherein the first and second travel regions include end-of-travel regions of the at least one air spring;wherein a first mode of spring operation is configured to provide for smooth road operation, if the measured acceleration or speed of the vehicle cabin is within a first range;wherein a second mode of spring operation is configured to provide for rough road operation, if the measured acceleration or speed of the vehicle cabin is within a second range that is larger than the first range;wherein the first mode does not include a comfort zone and the second mode has a comfort zone having a non-zero range of motion, the air spring being connected to a container defining an additional volume in the comfort zone. 9. The vehicle of claim 8, wherein a third mode of spring operation is configured to provide for transitional road operation, if one of the measured acceleration or speed of the vehicle cabin is within a third range. 10. The vehicle of claim 8, wherein a third mode of spring operation is configured to provide for transitional road operation, within a threshold period of time after movement of the vehicle increases to a value greater than a threshold amount. 11. The vehicle of claim 8, wherein the suspension device adds the at least one additional volume of air to the at least one air spring if the measured acceleration or speed is at a second predefined value during the extension movement and the return movement of the at least one air spring in the first and second travel regions. 12. The vehicle of claim 8, wherein the suspension device adds the at least one additional volume of air to the at least one air spring if the measured acceleration or speed is at a third predefined speed or acceleration value during an extension movement and removes the at least one additional volume of air from the at least one air spring during a return movement of the at least one air spring in the first and second travel regions. 13. The vehicle of claim 8, wherein the control device is configured to determine the spring mode of operation to be a third mode of operation if the measured acceleration or speed is within a third range that is higher than the first and second ranges, wherein the third mode of spring operation is configured to leave the container connected to the air spring throughout an entire extension and a corresponding return movement in a first travel region and an entire compression and a corresponding return movement in a second travel region. 14. The vehicle of claim 13, wherein the control device is further configured to determine the spring mode of operation to be a third mode of operation if the measured acceleration or speed is within a fourth range that is higher than the first, second, and third ranges, wherein the third mode of spring operation is configured to leave the container to the air spring through the extension movement in the first travel region and the compression in the second travel region and to disconnect the container from the air spring during the corresponding return movement in the first travel region and the corresponding return movement in the second travel region.