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Hand-feed tools

There are many kinds of point-of-operation devices. They include gates or moveable barrier devices, presence sensing devices, pull-out devices, sweep devices, hold-out or restraint devices, two-hand controls, and hand-feed tools. [Pg.163]

Hand-Feed Tools Hand-feed tools (Figure 13-15) are special tools that allow an operator to place materials into... [Pg.165]

Figure 13-15. Examples of hand feed tools. (From OSHA 3067.)... Figure 13-15. Examples of hand feed tools. (From OSHA 3067.)...
Includes pickup pipe, place in chuck, and tighten chuck jaws. Measure pipe for cut and positions carriage. Hand feed parting tool to cup piece off pipe. Hand feed parting tool to remove hurrs. Loosen chuck jaws, remove pipe from chuck, and set aside. Dispose of scrap or set aside unused pieces. [Pg.830]

Load/unload press tool hand feed into machine spraypainting metalwork... [Pg.1397]

Hand feed parting tool to cut piece off pipe. [Pg.1598]

Turning the angle is done by winding the top slide handle by hand. The tool will feed at the angle to which the top slide is set. After the first cut, the tool is returned to its starting position byrewinding the top slide. [Pg.145]

The Winsor II microemulsion is the configuration that has attracted most attention in solvent extraction from aqueous feeds, as it does not affect the structure of the aqueous phase the organic extracting phase, on the other hand, is now a W/0 microemulsion instead of a single phase. The main reason for the interest in W/0 microemulsions is that the presence of the aqueous microphase in the extracting phase may enhance the extraction of hydrophilic solutes by solubilizing them in the reverse micellar cores. However, this is not always the case and it seems to vary with the characteristics of the system and the type of solute. Furthermore, in many instances the mechanism of extraction enhancement is not simply solubilization into the reverse micellar cores. Four solubilization sites are possible in a reverse micelle, as illustrated in Fig. 15.6 [19]. An important point is that the term solubilization does not apply only to solute transfer into the reverse micelle cores, but also to insertion into the micellar boundary region called the palisade. The problem faced by researchers is that the exact location of the solute in the microemulsion phase is difficult to determine with most of the available analytical tools, and thus it has to be inferred. [Pg.661]

The tool-electrode feeding rate has to be selected properly. Feed rates faster than the mean material removal rate of the process will result in breaking either the workpiece or the tool-electrode. On the other hand, very slow feed rates will increase drilling times and may result in large heat affected zones around the microhole. So far only a few studies have been carried out on the optimal feeding rate. Typical values reported in the literature are, depending on the tool-electrode... [Pg.127]

It should be mentioned that the majority of the work presented here is graphically based simply because it is easier to grasp column into-actions and behavior when approached from this point of view. However, this need not be a limitation for the methods. The authors would also like to stress that it is not necessarily the specific material and problems presented in the book that are important, but more the tools that the reader should be equipped with. The concepts we present simply put tools into the designer s hand for him/her to create a unique column or separation structure that may solve his/her particular separation problem. For instance, both distributed feed and reactive distillation columns are discussed independently, although it is of course entirely possible to conceive of a reactive distributed feed system, which is not discussed. The tools in this book will thus first allow the reader understand, analyze, and design well-known and frequently encountered distillation problems. Second, the tools can be used to synthesize and develop new systems that peihaps have not even been thought of yet. This principle applies to virtually all the work in this book and the reader is urged to explore such concepts. [Pg.367]

Routine packing, washing vehicles, wheehng trolley down cletir gtmgway Feed press tool (hand clear of press) topping up battery Painting walls... [Pg.1397]

Now the open question is How long is the radius of the circle, named a The answer can be found in Fig. 6 The distance between the tool in any position and after one whole revolution is equal to the circumference of the rolling circle, which is 2 71 a. On the other hand it is equal to the feed, which is the feed per tooth times the number of teeth (f z). Combining these two formulas, a is given if the number of teeth of the cutter is known and if the feed per tooth is known ... [Pg.606]

A device for feeding small objects to and removing them from a danger area. It is typically a metal U-shaped tool that is used to grasp items with one hand. [Pg.288]

See other pages where Hand-feed tools is mentioned: [Pg.367]    [Pg.367]    [Pg.4]    [Pg.211]    [Pg.418]    [Pg.418]    [Pg.440]    [Pg.158]    [Pg.211]    [Pg.1714]    [Pg.229]    [Pg.124]    [Pg.28]    [Pg.1708]    [Pg.1417]    [Pg.102]    [Pg.103]    [Pg.750]    [Pg.318]    [Pg.650]    [Pg.610]    [Pg.807]    [Pg.281]    [Pg.282]    [Pg.447]    [Pg.447]    [Pg.232]    [Pg.248]    [Pg.252]    [Pg.750]    [Pg.617]    [Pg.30]    [Pg.202]    [Pg.265]   
See also in sourсe #XX -- [ Pg.165 ]



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