LASER WELDING OF BALANCE WEIGHTS TO DRIVESHAFTS

Abstract

Described herein are driveshafts with balance weights welded thereon and methods of manufacturing the same. The paint is removed from the driveshaft before the balance weight is welded thereon. The paint removal and welding can be incorporated into the balancing process and equipment. The invention also relates to driveshaft balancing equipment incorporating one of or both of paint removal capabilities or welding capabilities.

Claims

1. A method of attaching a balance weight to a driveshaft, comprising the steps of: a. providing a driveshaft with a coat of paint; b. detecting a location on the driveshaft where balance weight is to be applied; c. removing paint in said location; d. abutting balance weight against said location; and e. welding said balance weight to said driveshaft at said location.

2. The method of claim 1, wherein the paint removal and welding step are performed by a single device.

3. The method of claim 2, wherein the single device is a laser.

4. The method of claim 1, where no repainting occurs after the balance weight is welded onto the driveshaft.

5. A driveshaft assembly comprising: a. a driveshaft with a coat of paint; b. a balance weight; and c. a point of attachment between the driveshaft and the balance weight, wherein the point of attachment is a weld, and wherein the weld is formed between the balance weight and the driveshaft at a location where the coat of paint has been removed.

6. A driveshaft assembly produced by the method of claim 1.

7. Driveshaft balancing equipment incorporating a paint removal device.

8. The equipment of claim 3 where the device is a laser.

9. Driveshaft balancing equipment incorporating a welding device.

10. The equipment of claim 5 where the device is a laser.

11. Driveshaft balancing equipment comprising a paint removal device and a welding device.

12. The equipment of claim 7 where the paint removal device and the welding device are identical.

13. The equipment of claim 7 where the paint removal device and the welding device are a single laser.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] The above, as well as other advantages of the present invention, will become readily apparent to those skilled in the art from the following detailed description when considered in the light of the accompanying drawings in which:

[0008] FIG. 1 shows a portion of the driveshaft with of one embodiment of the invention.

[0009] FIG. 2 shows a welded balance weight on a driveshaft in accordance with one embodiment of the invention.

[0010] FIG. 3 shows various views of a balance weight in accordance with one embodiment of the invention.

[0011] FIG. 4 shows a balance weight (FIG. 4A) and driveshaft (FIG. 4B) of one embedment of the invention with areas to be welded indicated.

[0012] FIG. 5 shows the steps of one embodiment of the invention for the method of applying the balance weights to a driveshaft.

[0013] FIG. 6 shows driveshaft balancing equipment in accordance with one embodiment of the current invention.

[0014] FIG. 7 shows driveshaft balancing equipment in accordance with one embodiment of the current invention.

[0015] FIG. 8 shows driveshaft balancing equipment with a driveshaft that has had paint removed in accordance with another embodiment of the current invention.

[0016] FIG. 9 shows driveshaft balancing equipment with a driveshaft with balance weights welded thereon in accordance with another embodiment of the current invention.

DETAILED DESCRIPTION

[0017] One end of a finished driveshaft 102 with a balance weight 104 and a coat of paint 112 in accordance with the embodiments of the current invention is shown in assembly 100. A generic end fitting 200 is shown by the dotted lines on the right hand side of the figure.

[0018] The driveshaft 102 is a tube with a wall 106. FIG. 2 shows a cross-section of a balance weight 104 welded via weld 116 to the wall 106 of the driveshaft 102. As made clear in FIG. 2, the weight 104 is attached to the driveshaft 102 that has a coat of paint 112.

[0019] FIG. 3 shows three views (FIG. 3A is a perspective view; FIG. 3B is a frontal view; FIG. 3C is a side view) of the type of balance weight 104 used in typical embodiments of the invention. Reference number 110 is a hole created in the manufacture of the balance weight 104. In alternative embodiments the balance weight 104 does not have a hole 110.

[0020] FIG. 4A shows the balance weight 104 with two balance welding areas 118 that will be welded to the driveshaft 102. Any number or size of balance welding areas 118 can be used. The two balance welding areas 118 shown here are simply for explanation purposes and are not limiting in any way.

[0021] FIG. 4B shows the driveshaft 102 with a coat of paint 112 where the driveshaft welding areas 114 have been created by removing the coat of paint 112. As with the balance welding areas 118 shown in FIG. 4A, the driveshaft welding areas 114 can be of any number or size and are simply for explanation purposes and are not limiting in any way. In typical embodiments, the balance welding areas 118 and the driveshaft welding areas 114 will be complementary in shape and number because in practice they represent the shape of the weld 116 that is formed.

[0022] FIG. 5 delineates the general steps of the method of applying the balance weight 104 to the driveshaft 102 having a coat of paint 112. First, the driveshaft 102 is assembled. Here, the driveshaft 102 is shown in cross-section so the wall 106 is represented. After assembly, a coat of paint 112 is applied to the wall of the driveshaft 106. Once the balancing process has been performed and the location for placement of the balance weight 104 has been determined, a driveshaft welding area 114 may be created by laser ablation of the coat of paint 112 in the driveshaft welding area 114. For even greater efficiency, the laser ablation can be incorporated in to the balancing process and equipment. After the driveshaft welding area 114 is created, the balance weight 104 is placed in the desired location. The weight 104 may be clamped into place. At this point, the balance weight 104 is welded into the wall of the driveshaft 106 creating a weld 116 between the driveshaft welding area 114 and the balance welding area 118, creating the final, balanced driveshaft assembly 100. Again, the process of laser welding can be incorporated into the balancing process and equipment in order to further improved efficiency.

[0023] In one embodiment, the steps of the method may comprise the following: [0024] 1. Load driveshaft into balancing equipment 210. [0025] 2. Balancing equipment 210 cycles and determines the imbalance, if any. [0026] 3. Balancing equipment 210 positons a first end region 205 of the driveshaft 102 toward the balancing actuator 230, which comprises one or both of paint removal device 250 or welding device 260, specific to where the balance weight 104 needs added. [0027] 4. Paint removal device 250 removes paint 114 on the first end region 205 of the driveshaft 102. [0028] 5. Balancing equipment 210 positions a second end region 206 of the driveshaft 102 toward the balancing actuator 230, which comprises one or both of paint removal device 250 or welding device 260, specific to where the balance weight 104 needs added. [0029] 6. Paint removal device 250 removes paint 114 on the second end region 206 of the driveshaft 102. [0030] 7. Automation as is known in the art selects and positions balance weight 104 on the second end region 206 of the driveshaft 102. [0031] 8. Welding device 260 welds balance weight 104 to the second end region 206 of the driveshaft 102. [0032] 9. Balancing equipment 210 positions the first end region 205 of the driveshaft 102 toward the balancing actuator 230, which comprises one or both of paint removal device 250 or welding device 260, specific to where the balance weight 104 needs added. [0033] 10. Automation selects and positions balance weight 104 on first end region 205 of the driveshaft 102. [0034] 11. Balancing actuator 230, which comprises one or both of paint removal device 250 or welding device 260, welds the balance weight 104 to the first end region 205 of the driveshaft 102. [0035] 12. Balancing equipment 210 cycles and determines the imbalance. [0036] 13. DecisionRepeat steps 2 thru 12 until balance of driveshaft assembly 100 is acceptable.

[0037] Generally, the driveshaft 102 is usually made from steel. Likewise, the balance weight 104 is usually also made from steel. In alternative embodiments, the balance weight 104 and the driveshaft 102 made be made from different materials, for instance, when one of the driveshaft 102 or balance weight 104 is made from aluminum. Any suitable material can be used for either component. When the coat of paint 112 is removed from the driveshaft welding areas 114, the steel to steel contact between the driveshaft wall 106 and the balance weight 104 allows for successful welding to occur. By only removing the coat of paint 112 in the driveshaft welding areas, once the balance weight 104 is welded to the driveshaft 102, no repainting is required, thereby eliminating an additional step in the manufacture of the driveshaft assembly 100 and improving efficiency and lowering cost. In some embodiments, the driveshaft balanced according to this method is not repainted after balancing. In some embodiments, the driveshaft balanced according to this method is repainted after balancing. The type of welding used will most likely by via use of a laser 300, but any other type of welding known that can attach the balance weight 104 to the driveshaft 102 can be used. In embodiments that use laser welding, the laser 300 can be incorporated into the balancing equipment 210 so that the paint removal and welding can all be performed during the balancing process.

[0038] The balancing equipment 210 into which one or both of the paint removal device 250 or welding device 260 are to be incorporated is very well known in the art. One, non-limiting example, is a driveshaft balancing equipment 210 manufactured by Schenck Corporation. In one embodiment of the driveshaft balancing equipment 210 modified to incorporate one or both of paint removal device 250 or welding device 260, uses a laser 300 incorporated in to the balancing equipment 210 to remove the coat of paint 112 at location 114 and weld the weight 104 onto the driveshaft 102. The paint removal device 250 or welding device 260, which may be (but does not have to be) the same device is generically referred to as the balancing actuator 230.

[0039] FIG. 6 shows a driveshaft 102 with a coat of paint 112 in balancing equipment 210. The driveshaft 102 is held on either end in the balancer via its endfittings 200 by workholders 220. The prior art would normally balance an unpainted driveshaft 102. Here, the balancing occurs on a driveshaft 102 with a coat of paint 112 already applied.

[0040] FIG. 7 shows driveshaft balancing equipment 210 with a balancing actuator 230 attached to an overhead frame 240. This is only one type of balancing equipment 210 that can be used in accordance with the current invention. Usually, the balancing actuator 230 will be connected to a server 280 where the server will process information sensed by the balancing actuator 230 and further direct the balancing actuator 230 to slide along the overhead frame 240 as necessary to complete the balancing operation. These processes are all known in the art and are described herein in very basic terms for contextual purposes.

[0041] The balancing actuator 230 is meant to cover any device known in the art to carry out the balancing operations of the balancing equipment 210. Therefore, the balancing actuator 230 may include sensing the weight centerline, velocity, resonance, or other characteristics of a rotating driveshaft 102 being balanced. The balancing actuator 230 may also comprise means for determining the desired placement of the balance weights 104 and attaching the balance weights 104 thereon. The embodiments of the current invention are meant to build on the balancing actuators 230 already known and described and used in the prior art. Any balancing equipment 210 that uses any type of balancing actuator 230, for example, equipment where the balancing actuator 230 is not on an overheard frame 240 should be understood to be within the scope of the invention.

[0042] One inventive aspect of the embodiment shown in FIG. 7 is the balancing of a driveshaft 102 with a coat of paint 112. Another inventive aspect of the embodiment shown in FIG. 7 is the inclusion of a paint removal device 250 in the balancing actuator 230. In addition, the balancing actuator 230 can include a welding device 260. In some embodiments, the paint removal device 250 and the welding device 260 are the same device. In another embodiment, the paint removal device 250 and the welding device 260 are the same device and are a laser 300.

[0043] FIGS. 8 and 9 show a close-up of a driveshaft 102 with a coat of paint 112 held by its end-fittings 200 in the balancing equipment by the workholders 220. The balancing actuator 230 is shown in both figures and can comprise one or both of the paint removal device 250 or welding device 260. In one embodiment, one or both of the paint removal device 250 or welding device 260 is the same and is a laser 300. FIG. 8 shows the driveshaft 102 with paint removed 114. This corresponds to step 3 in FIG. 5. FIG. 9 shows how the balance weight 104 is welded via welds 116 in the precise location where the paint was earlier removed 114. FIG. 9 corresponds to step 5 in FIG. 5.

[0044] Per the provisions of the patent laws, the present invention has been described in what is considered to represent its preferred embodiments. However, it should be noted that the invention can be practiced other than as specifically illustrated and described without departing from its spirit or scope.