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This is a quick guide to show the internal guts of a Bourdon type Pressure gauge and what I have done to not only fix but make much more robust with respect to vibration induced wear.
[Note needles also bounce due to oil pressure pulsation; that can be usually minimized by using an accumulator type device at the input to the gauge. Basically you need a relatively large cavity of hose and a small bleed port to fed the gauge.While this stops needle bounce (an probably bounce related gauge wear) it does nothing to stop vibration from rattling the mechanism which will lead to pin wear.]
If you have even installed a pressure gauge on your bike, and especially onto your engine you probably have noticed that while it might have worked pretty well initially after a while it is not so good. Well the mysteries of what is going on are soon unlocked if you look inside the gauge.
Here you can see that I used the old double flat head screwdriver trick to pry the lip back on the gauge Bessel cover ring. This is a method popularized fro opening and repairing tachs and speedo gears. I would not recommend the other technique of cutting this metal gauge with a dremel.
With a little paitence, it come apart just like the other gauges.
Here is the mechanism that you will fin inside. This is what wears out causing zero shifts and under indication of oil pressure.
You can read about it here.
Basically what wears is the parts that join 3,4, and 5. These are little hinges that converts the movement of the end of the flattened tube to rotating motion of the level (part 5) which is what actually rotates the needle.
[Note needles also bounce due to oil pressure pulsation; that can be usually minimized by using an accumulator type device at the input to the gauge. Basically you need a relatively large cavity of hose and a small bleed port to fed the gauge.While this stops needle bounce (an probably bounce related gauge wear) it does nothing to stop vibration from rattling the mechanism which will lead to pin wear.]
If you have even installed a pressure gauge on your bike, and especially onto your engine you probably have noticed that while it might have worked pretty well initially after a while it is not so good. Well the mysteries of what is going on are soon unlocked if you look inside the gauge.
Here you can see that I used the old double flat head screwdriver trick to pry the lip back on the gauge Bessel cover ring. This is a method popularized fro opening and repairing tachs and speedo gears. I would not recommend the other technique of cutting this metal gauge with a dremel.
With a little paitence, it come apart just like the other gauges.
Here is the mechanism that you will fin inside. This is what wears out causing zero shifts and under indication of oil pressure.
You can read about it here.
Bourdon[edit]
The Bourdon pressure gauge uses the principle that a flattened tube tends to straighten or regain its circular form in cross-section when pressurized. Although this change in cross-section may be hardly noticeable, and thus involving moderate stresses within the elastic range of easily workable materials, the strain of the material of the tube is magnified by forming the tube into a C shape or even a helix, such that the entire tube tends to straighten out or uncoil, elastically, as it is pressurized. Eugene Bourdon patented his gauge in France in 1849, and it was widely adopted because of its superior sensitivity, linearity, and accuracy; Edward Ashcroft purchased Bourdon's American patent rights in 1852 and became a major manufacturer of gauges. Also in 1849, Bernard Schaeffer in Magdeburg, Germany patented a successful diaphragm (see below) pressure gauge, which, together with the Bourdon gauge, revolutionized pressure measurement in industry.[6] But in 1875 after Bourdon's patents expired, his company Schaeffer and Budenberg also manufactured Bourdon tube gauges.
The Bourdon pressure gauge uses the principle that a flattened tube tends to straighten or regain its circular form in cross-section when pressurized. Although this change in cross-section may be hardly noticeable, and thus involving moderate stresses within the elastic range of easily workable materials, the strain of the material of the tube is magnified by forming the tube into a C shape or even a helix, such that the entire tube tends to straighten out or uncoil, elastically, as it is pressurized. Eugene Bourdon patented his gauge in France in 1849, and it was widely adopted because of its superior sensitivity, linearity, and accuracy; Edward Ashcroft purchased Bourdon's American patent rights in 1852 and became a major manufacturer of gauges. Also in 1849, Bernard Schaeffer in Magdeburg, Germany patented a successful diaphragm (see below) pressure gauge, which, together with the Bourdon gauge, revolutionized pressure measurement in industry.[6] But in 1875 after Bourdon's patents expired, his company Schaeffer and Budenberg also manufactured Bourdon tube gauges.
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