The present invention relates to a system and method for upsetting hollow metal members. More specifically, the present invention relates to a system and method for upsetting hollow metal members without requiring the member to be heated for the upsetting operation.
It is sometimes required to have a hollow metal member with a thicker gauge (wall thickness) at a relatively small portion of one end or both ends, of the member while the majority of the length of the member between the ends can be a second, thinner, gauge. For example, rear axles in front wheel drive passenger vehicles are typically manufactured from a hollow tubular metal member which is formed into the required configuration in a press. While the axle requires a given wall thickness, for example three millimeters, along most of its length, the end portions of the axle can require an increased wall thickness, for example four and a half millimeters, to allow them to be affixed, by welding, to the wheel hub structures.
Rather than employ a feedstock member having the greater wall thickness (e.g. four and a half millimeters) along its entire length, (which would increase material costs and the weight of the member) it is known to employ a feedstock member having the smaller wall thickness (e.g. three millimeters) and to upset, or bulge, the ends of the feedstock member to obtain the necessary larger wall thickness required at the ends of the axle.
Conventionally, upsetting involves heating the end portions of the hollow member to place the material in a malleable state and then longitudinally compressing the member to deform it, increasing the wall thickness (gauge) of the hollow member in the treated area while decreasing its length.
While hot upsetting provides an advantage in that localized areas of increased gauge can be created, it does suffer from some disadvantages. In particular, hot upsetting must be performed at a separate manufacturing station where the ends of the hollow member can be heated and compressed and this increases the manufacturing time for the finished part, as well as the increasing the capital costs associated with providing a separate upsetting station and increasing the operating costs associated with operating the heaters for the upsetting operation.
Further, the heating required for hot upsetting requires a heating and cooling cycle for the upset portions of the hollow member and this heating and cooling cycle alters the properties of the hollow member in the upset areas. This typically necessitates that the upset areas be subsequently treated to harden the upset areas, adding a further process expense.
It is desired to have a method and system for upsetting at least one end portion of a hollow member which does not require the heating of the hollow member.
It is an object of the present invention to provide a novel system and method for upsetting a portion of a hollow member which obviates or mitigates at least one disadvantage of the prior art.
According to a first aspect of the present invention, there is provided a method of upsetting a hollow workpiece, comprising the steps of: loading a workpiece into a clamp, the clamp having an inner shape complementary to the outer surface of the workpiece, and an end of the workpiece which is to be upset extending outside of the clamp; inserting a mandrel into the interior of the workpiece, through a die located adjacent the end of the workpiece, the mandrel having a complementary shape to the interior cross section of the workpiece and the mandrel extending sufficiently into the workpiece to enter the portion of the workpiece to be held in the clamp; closing the clamp about the workpiece; urging the die toward the clamp to bring the die into contact with the workpiece; driving the die toward the clamp to decrease the length of the end of the workpiece to be upset while increasing the wall thickness of that portion; and once the die has been urged a pre-selected distance towards the clamp, retracting the die from the end, retracting the mandrel from the workpiece, and opening the clamp to remove the upset workpiece.
According to another aspect of the present invention, there is provided an apparatus for upsetting a hollow workpiece comprising: a clamp having a clamp surface shape and size complementary to the outer shape of a hollow workpiece; means for exerting a force onto the clamp to close the clamp on the workpiece with an end of the workpiece to be upset extending outside the clamp; a mandrel having a size and shape complementary to the interior surface of the workpiece; a die having an inner shape and size corresponding to the desired upset size and shape of the end of the workpiece; and a drive operable to move the die toward the clamp such that the die engages the end of the workpiece to be upset, the drive further operable to urge the die through a pre-selected distance towards the clamp to decrease the length of the end of the workpiece while upsetting it.
The present invention provides an apparatus and method for upsetting a portion of a hollow workpiece to increase the wall thickness of the workpiece. A mandrel is inserted into an exposed end of the workpiece and into a clamp, which is then closed to hold the workpiece. A die is forced against the exposed end of the workpiece to upset the exposed end by compressing the end towards the clamp, decreasing its length and increasing the wall thickness of the hollow member as required.
Preferred embodiments of the present invention will now be described, by way of example only, with reference to the attached Figures, wherein:
a shows a workpiece prior to upsetting;
b shows the workpiece of
a shows a cross section through a clamp, workpiece and mandrel where the workpiece is square in cross section; and
b shows a cross section through a clamp, workpiece and mandrel where the workpiece is rectangular in cross section.
Apparatus for performing upsetting, in accordance with the present invention, is indicated generally at 20 in
Once workpiece 24 is loaded in clamp 28 and die 36, a mandrel 40 is inserted into the interior of workpiece 24, through dies 36, and extends into workpiece 24 such that at least a portion of mandrel 40 is within clamp 28, as shown in
Clamp 28 is then closed, as shown in
In the illustrated embodiment, workpiece 24 has a circular outer shape and clamp 28 has a corresponding circular shape of its inner clamp surface to receive workpiece 24 and mandrel 40 also has an outer circular shape and size corresponding to the circular shape of the interior of workpiece 24. However, as will be apparent to those of skill in the art, the present invention is not limited to upsetting hollow workpieces 24 with circular outer (or inner) shapes.
The end 32 of workpiece 24 to be upset extends beyond clamp 28, as shown in
Once clamp 28 is closed and mandrel 40 is inserted into workpiece 24, upsetting die 36 is forced towards clamp 28, as shown in
As will be apparent to those of skill in the art, the force required to move die 36 towards clamp 28 can be significant. In a presently preferred embodiment of the invention, die 36 is mounted to one half cam 44 of a cam-based force multiplier. The other half cam 48 of the cam-based force multiplier is connected to a hydraulic ram 52 which, when extended, moves half cam 48 laterally with respect to the length of end 32. As will be understood by those of skill in the art, half cam 48 includes a cam surface which rides on a complementary cam surface on half cam 44, converting the lateral force exerted on half cam 48 by ram 52 into longitudinal force on half cam 44, and die 32, and increasing the longitudinal force applied to die 36, and end 32, from that generated by ram 52.
However, as will be apparent to those of skill in the art, the present invention is not limited to the use of force multipliers to move die 36 into contact with end 32 and force can be applied directly to die 36 (or a suitable carrier) in any appropriate manner as will occur to those of skill in the art.
When die 36 has been driven a predetermined distance towards clamp 28, achieving the desired upsetting, ram 52 is stopped and reversed. A ram (not shown) or other suitable means moves die 36 away from clamp 28, exposing upset end 32 as shown in
The clamp pressure on clamp 28 is reduced to allow mandrel 40 to be retracted and then clamp 28 is released, as shown in
A method in accordance with the present invention can be considered to comprise the steps of: loading a workpiece into a clamp, the clamp having a shape complementary to the outer surface of the workpiece, and the portion of the workpiece which is to be upset extending outside of the clamp; inserting a mandrel into the interior of the workpiece through a die located adjacent end of the workpiece to be upset, the outer surface of the mandrel having a complementary shape complementary to the interior cross section of the workpiece and the mandrel extending sufficiently into the workpiece to enter the portion of the workpiece to be held in the clamp; closing the clamp; urging the die toward the clamp to bring the die into contact with the workpiece; driving the die toward the clamp to decrease the length of the end of the workpiece to be upset while increasing the wall thickness of that end; and once the die has been force a pre-selected distance towards the clamp, retracting the die and the mandrel from the workpiece and opening the clamp to remove the upset workpiece.
It should be appreciated that the orientation of die 36 and mandrel 40 relative to end 32 of workpiece 24 allows a concurrent upsetting operation to be performed at the opposite end of workpiece 24. In particular, it is contemplated that another die and another mandrel substantially the mirror images of die 36 and mandrel 40 are positioned at the opposite end of workpiece 24. The another die and another mandrel are moveable in the same manner as die 36 and mandrel 40 to upset the opposite end of workpiece 24. Die 36 and the other die may be simultaneously driven into contact with workpiece 24 to substantially simultaneously upset both ends of workpiece 24. A singular clamp 28 may be used or another clamp may be added to grasp workpiece 24 near the end opposite end 32, depending on the length of workpiece 24.
a shows a workpiece 24 prior to upsetting in apparatus 20. As shown, workpiece 24 has a length of A and includes an end 32 which is to be upset.
In a specific example of the present invention, a workpiece comprising a circular tube of 22MNB5 steel which has been subjected to an NBK process (comprising post rolling annealing at approximately 920° C. in a controlled atmosphere and controlled heating and cooling cycles) has an end upset. The wall thickness of the workpiece is 3.2 mm with the outer diameter of the workpiece being 90 mm. After upsetting, the upset portion has a wall thickness of approximately 4.2 mm, and an outer diameter of about 92 mm, and the length of the workpiece is reduced by approximately 15 mm.
In this example, apparatus 20 forms part of a press station for forming workpiece 24 and clamp 28 is closed by the same hydraulic press which is otherwise used to form workpiece 24. Accordingly, clamp 28 is closed with a force in excess of 250 tonnes. Ram 52, produces in excess of 50 tonnes of force, which the cam-based force multiplier converts to greater than 150 tonnes of lateral force on die 36 and end 32.
As will be apparent to those of skill in the art, apparatus 20 can be provided as a separate workstation in a manufacturing process, but as mentioned above, it is contemplated that one of the advantages of the present invention is that apparatus 20 can be included in an existing workstation, such as a forming press. In this manner, cycle times can be reduced, along with the capital expenses which would otherwise be required to establish a separate work station and/or the need for additional plant floor space.
Further, as the method of the present invention does not require heating of workpiece 24 for upsetting, the capital and operating expenses which would be associated with upsetting heaters is avoided and the need for additional hardening or other processing treatments can be avoided.
As mentioned above, while the illustrated embodiment shows workpiece 24 as having a circular cross section, the present invention is not so limited.
As will be apparent to those of skill in the art, in this embodiment, mandrel 40 has a square cross section corresponding to the interior cross section of workpiece 24a.
Similarly,
It is further contemplated that die 36 can include one or more desired features, such as a flat or spline, which is formed into the corresponding part of the outer surface of upset portion 30 by dies 36 when the upsetting is performed.
The above-described embodiments of the invention are intended to be examples of the present invention and alterations and modifications may be effected thereto, by those of skill in the art, without departing from the scope of the invention which is defined solely by the claims appended hereto.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CA08/01435 | 8/7/2008 | WO | 00 | 2/11/2010 |
Number | Date | Country | |
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60956198 | Aug 2007 | US |