AXEL LIFT MECHANISM

Abstract

A lifting mechanism for a vehicle axle is provided wherein a vehicle includes a vehicle frame having a first rail component and a second rail component. A first mounting bracket is attached to the first rail component of the vehicle frame. A lifting component is attached to the first mounting bracket. A lateral load component has a first end attached to the lifting component and a second end attached to the second rail component of the vehicle frame. A bracket attaches the lateral load component to the vehicle axle such that upon extension of the lifting component, the vehicle axle is lifted.

Description

BACKGROUND OF THE INVENTION

The present invention relates to an axle lifting mechanism for use with heavy trucks and trailers. In particular, a mechanism that serves two purposes, including lifting the axle and providing structural support for lateral loading of the axle.

Such lifting mechanisms provide an efficiency advantage in situations where the truck or trailer is partially loaded or fully unloaded, and is intended to be used with a non-driven axle.

SUMMARY OF THE INVENTION

The axle lifting mechanism of the present invention is for use with heavy trucks and trailers, and relates to the ability to lift the axle of a truck or trailer in the partially loaded or unloaded state. Regulations around maximum weight limits per axle on trucks merit the need for additional axles when the truck is fully loaded (to the max weight rating of the truck). In situations where a truck has depleted its load, the drag associated with the additional tires on the ground is detrimental to fuel economy. In this situation, lifting the axle decreases the drag and prevents unnecessary wear on axle and tire components.

Typical air suspensions for heavy duty trucks are arranged as follows. Trailing arms oriented in the fore/aft direction mount to the axle, and connect to the frame of the truck through brackets and take the fore/aft loading applied by the axle. The trailing arms are allowed to pivot about the frame brackets, creating an arc that the axle can move in when the suspension system is compressed. Additionally, a laterally oriented arm is utilized to take side load of the system, which mounts to the axle and frame using bushings and brackets. The suspension system movement is controlled using shocks and air bags mounted between the frame and axle.

The present invention accomplishes the task of lifting the axle by replacing the lateral load carrying member of typical truck suspensions with a dual purpose piece that can continue to support the truck lateral load, but also can connect to an axle lifting component. The other end of the lifting component then mounts to the frame of the truck or trailer on a bracket. When extended, the lifting component applies a force to the lateral load carrying member, causing it to move upward and lift the axle in the process. The lifting component could be an air bag, hydraulic cylinder, or similar force-exerting component.

BRIEF DESCRIPTION OF THE DRAWINGS

In the drawings,

FIG. 1 is a perspective view of the lifting mechanism mounted on a typical tractor suspension system in accordance with a preferred embodiment of the present invention;

FIG. 2 is an end view of the lifting mechanism mounted on a typical tractor suspension system in accordance with a preferred embodiment of the present invention;

FIG. 3 is a perspective view of the lifting mechanism mounted on a typical tractor suspension system in accordance with an additional embodiment of the present invention;

FIG. 4 is an end view of the lifting mechanism mounted on a typical tractor suspension system in accordance with an additional embodiment of the present invention;

DETAILED DESCRIPTION

Referring now to FIG. 1, an axle lifting mechanism in accordance with an embodiment of the present invention is shown. The system is comprised of a lateral load carrying element 13, the lifting component 12, and the frame mounting bracket 10. Lifting component 12 is connected to one frame rail of the truck 11 using a bracket 10. The opposing side of the lifting component 12 is connected to the lateral load carrying element 13 on a mounting pad, an example of which is shown at 14.

Lifting component 12 is typically an air bag with sufficient size to lift the axle and prevent axle movement when lifted. When extended, lifting component 12 applies a force to the lateral load carrying element, moving the connected axle assembly upward along the normal axle travel path.

The lateral load carrying element 13 is comprised of a structural material, typically aluminum, steel or iron, and serves dual functions of:

• • 1. Carrying the lateral load from the truck to the axle
  • 2. Providing an application point for the lifting component 12 to apply a lifting force to the axle.

Referring now to FIG. 2, an axle lifting mechanism in accordance with an embodiment of the present invention is shown. The lifting component is shown at 12, which when extended applies lifting force to the lateral load carrying element 13. The lateral load carrying element 13 is mounted to the axle 17 using a bushing or similar compliant connection device 15. The opposing end of the lateral load carrying element 13 is additionally mounted to second truck frame rail 11A using a bushing or similar compliant connection device 16.

Referring now to FIG. 3 and FIG. 4, an axle lifting mechanism in accordance with an embodiment of the present invention is shown. This embodiment differs from the embodiment shown in FIG. 1 and FIG. 2 by mounting the frame mounting bracket to the same frame rail as the lateral load carrying element is mounted to.

Referring now to FIG. 3, an axle lifting mechanism in accordance with an embodiment of the present invention is shown. The system is comprised of a lateral load carrying element 23, the lifting component 22, and a frame mounting bracket 20 mounted to truck frame rail 21A. Lifting component 22 is connected to frame rail 21A of the truck using bracket 20. The opposing side of the lifting component 22 is connected to the lateral load carrying element 23 on a mounting pad 24.

Lifting component 22 is typically an air bag with sufficient size to lift the axle and prevent axle movement when lifted. When extended, lifting component 22 applies a force to the lateral load carrying element, moving the connected axle assembly upward along the normal axle travel path.

The lateral load carrying element 23 is comprised of a structural material, typically aluminum, steel or iron, and serves dual functions of carrying the lateral load from the truck to the axle and providing an application point for the lifting component 22 to apply a lifting force to the axle.

Referring now to FIG. 4, an axle lifting mechanism in accordance with an embodiment of the present invention is shown. The lifting component 22, which when extended applies lifting force to the lateral load carrying element 23. The lateral load carrying element 23 is mounted to the axle 27 using a bushing or similar compliant connection device 25. The opposing end of the lateral load carrying element 23 is also mounted to truck frame rail 21A using a bushing or similar compliant connection device 26.

Claims

1. A lifting mechanism for a vehicle axle comprising a vehicle frame having a first rail component and a second rail component,a first mounting bracket attached to the first rail component of the vehicle frame,a lifting component attached to the first mounting bracket,a lateral load component having a first end attached to the lifting component and a second end attached to the second rail component of the vehicle frame,a bracket attaching the lateral load component to the vehicle axle such that upon extension of the lifting component, the vehicle axle is lifted.

2. The lifting mechanism of claim 1wherein the lifting component is comprised of an air bag.

3. The lifting mechanism of claim 1wherein the lifting component is comprised of a hydraulic cylinder.

4. The lifting mechanism of claim 1wherein the lateral load component is attached to the second rail component of the vehicle frame with a bushing.

5. The lifting mechanism of claim 1wherein the lifting component has a bottom surface and a top surface,and the lifting component bottom surface is attached to the first mounting bracket,and the lifting component top surface is attached to the lateral load component.

6. The lifting mechanism of claim 1wherein the bracket attaching the lateral load component to the vehicle axle includes a bushing connected to the lateral load component.

7. A lifting mechanism for a vehicle axle comprising a first mounting bracket attached to a first rail component of a vehicle frame,a lifting component attached to the first mounting bracket,a lateral load component having a first end attached to the lifting component and a second endattached to the first rail component of the vehicle frame,a bracket attaching the lateral load component to the vehicle axle such that upon extension of the lifting component, the vehicle axle is lifted.

8. The lifting mechanism of claim 7wherein the lifting component is comprised of an air bag.

9. The lifting mechanism of claim 7wherein the lifting component is comprised of a hydraulic cylinder.

10. The lifting mechanism of claim 7wherein the lateral load component is attached to the first rail component of the vehicle frame with a bushing.

11. The lifting mechanism of claim 7wherein the lifting component has a bottom surface and a top surface,and the lifting component bottom surface is attached to the first mounting bracket,and the lifting component top surface is attached to the lateral load component.

12. The lifting mechanism of claim 7wherein the bracket attaching the lateral load component to the vehicle axle includes a bushing connected to the lateral load component.