Mighty Joe Young | Disney Movies
Chris Galli, Joe Young, John Horel, Synoptic Data Corp. identification of gauge malfunctions, alert notifications of rainfall intensities that meet. A legendary fifteen-foot tall mountain gorilla named Joe is taken to an animal sanctuary in California by a zoologist and a young woman whom he grew up with . "Joe Hill ()" by Gage Skidmore from Peoria, AZ, United . I do think that Dan is a really remarkable young actor, and with If you scratch the surface, it's possible to see that NOS4R2 and It share the same underlying structure . your work, meet your new personal assistant: omarcafini.info
Joe trashes the gala, with the intention of attacking Strasser, but is captured, and imprisoned in a concrete bunker.
When Jill discovers that Joe may be euthanized, she accepts Strasser's offer. She and the refuge staff smuggle Joe out in a truck. Before their departure, Gregg has fallen in love with Jill and kisses her goodbye.
Interview: Joe Hill on HORNS, NOS4A2 and Stephen King | omarcafini.info
On the way to the airport, Jill notices the half-glove covering Strasser's missing fingers and recognizes him. She fights Strasser and Garth, then jumps from the truck onto Hollywood Boulevardleading to several automobile accidents. Joe sees her and tilts the truck over onto its side and flees. Gregg discovers that Strasser is a poacher and goes after Jill and Joe. He finds Jill, who reveals to Gregg that Strasser killed her mother and now plans to kill Joe.
They track Joe to a carnival where he is playfully wreaking havoc. Strasser arrives as well and attempts to shoot Jill, but Garth, appalled at Strasser's ruthlessness, turns against him and saves Jill, causing Strasser to misfire at a spotlight, starting a fire and causing the Ferris wheel to break down.
After knocking Garth unconscious, Strasser attempts to kill Jill in person, but Joe sneaks up behind them and throws Strasser onto a power line over a transformer. I spent about three years writing Horns, and after that length of time I was ready to be done with it. Mandalay optioned it and wanted to make a film, and they asked if I had any interest in writing the script. And eventually Alexandre Aja when he came onboard.
We had lively arguments and broke the story down a dozen times and built it back up. It was a lot of fun. When Alex actually began filming, I viewed my role as to not get under foot and not to create trouble so I showed up on set for a couple of days to goof off and watch what people were doing and then I made myself scarce again.
I came back in on the end to talk about editing, as they put the film together and I had some suggestions and some ideas. I told my version; it was time for him to tell his.
I hoped that he would be true to the spirit of the characters and he was. Daniel Radcliffe and Juno Temple made sure of that. But beyond that I wanted Alex to feel free to have fun and to make a movie that lived on the screen, not something that was trying so hard to be faithful it just kind of plods along. I think he found a nice balance. You know the thing about the film and about Alexandre Aja, he has a very light touch. The film has this kind of lush romanticism to it.
It comes through in the film even in the most painful scenes. But I had no trouble taking notes and collaborating and working with the network on that. It was fun and exciting. Best to stay out of the way in a situation like that.
Is it tricky to keep that distance? I always feel uncomfortable saying this. I was in so much pain when I wrote it. For convenience, the distance from this axis of alignment to the central axis of the measuring spindle 74 i.
With this arrangement, the dial indicat r 70 will give a reading of the taper of the surface being checked in thousandths of an inch per inch. As indicated in phantom in FIGURE 1 of the drawings, 2 the angular relationship between the two body blocks 10 and 12 need not be 90 degrees.
US3380165A - Angle gauge - Google Patents
By loosening the two set screws 40, 42 in the ears 14, 16, the body 10 may be r0- tated relative to the block 12 about the hinge pin 28 to conform to a desired obtuse angle. The blocks may be opened beyond degrees to measure an internal angle. The dial indicator may be turned around to facilitate this. Where it is desired to utilize the angle gauge with angles of less than 90 degrees as well as angles greater than 90 degrees, modified body blocks 10 and 12 may be used, as shown in FIGURE 3 of the drawings.
This embodiment is identical to that of FIGURES l and 2, with the exception of a contoured surface 91 along the edge of the block 10' next to each of the extending ears, and a similar contoured surface 92 of the block These surfaces taper toward the inside surface 31 or 33 of each block and permit the two blocks 10' and 12' to pivot beyond the point where the thickness of each block would otherwise engage the extending ears of the other block and prevent further movement about the hinge pin The same result can be accomplished by lengthening the ears so they are longer than the thickness of the blocks and locating the pivot pin adjacent the outer ends of the ears.
Mighty Joe Young (1998)
The work piece W has two adjacent surfaces S and S that form a right angle. It is desired to check the accuracy of the surface S with respect to the surface S.
This may be done by first substituting a master gauge block for the work piece W, in the same relation- I ship to the angle gauge as that occupied by the work piece W. The flat surfaces 55 of the cap screws 50, 51, 52 are placed against one surface of the master gauge block and the cone points 66, 67 and the measuring spindle 74 are placed against the adjacent right angle, surface of the master gauge block. The granuated dial is set with the Zero mark beneath the pointer 82, wherever it may be pointing, and the angle gauge is ready to be used to check the accuracy of the work piece W.
The angle gauge is now placed at the edge of the work piece W where the two surfaces S and S join. The flat surfaces 55 are placed against the finished surface S and the cone points 66 and the measuring spindle 74 are placed against the surface S to be checked in its relationship to surface S.
To the extent the included angle between the surface S and S is less than degrees, the corner of the work piece formed by the two surfaces S and S will be closer to the inside surface 33 of the block 12 than was the corner of the gauge block.
As a result, the measuring spindle 74 will be pushed upward in the orientation of FIGURE 1 and the pointer 82 will indicate this difference. If the angle is greater than 90 degrees the spindle will be spring biased downward and the pointer 82 will move in the opposite direction. Because the measuring spindle 74 is one inch from the axis of alignment of the points 66, 67, the distance that the measuring spindle moves indicates the total change of the surface S' for each inch of length.
Thus, where the graduated dial 80 is calibrated in thousandths of an inch, the reading indicates a taper in thousandths of an inch per inch of length. It will be appreciated that the accuracy to which the various parts of the angle gauge are made or assembled becomes unimportant because the three flat surfaces 55, the two cone points 66 and the spring loaded measuring spindle 74 can always be placed firmly in contact with the two related surfaces to be check.
Once the dial indicator 70 has been adjusted for the relationship of the surfaces of the master gauge block, the angle gauge will correctly indicate variations from this relationship. As can be best seen from FIGURE 1, the central axis of the spring loaded measuring spindle 74 is spaced farther from the plane of the surface 31 than are the fiat surfaces 55 of each cap screw 50, 51, Thus, the measuring spindle 74 contacts the surface S inwardly from the corner thereof.
The surfaces 55 themselves as well as the points 66, 67 of the set screws 64, 65 are also spaced from the corner of the work piece being checked. With this arrangement, burrs or snags that might still be adhered to the corner of the work piece need not be first removed before the accuracy of the surfaces can be checked. An inspector may slide the gauge along the surfaces S and S to check for accuracy at various points along the work piece without snagging the gauge on such burrs that might be still adhered to the edge where the two surfaces meet.
From the above it will be apparent that an inexpensive and accurate angle gauge has been provided, which may be readily adjusted to any one of plurality of angles, greatly increasing the scope and usefulness of the gauge. While certain preferred embodiments of the invention have been disclosed, numerous modifications or alterations may be made therein without departing from the spirit and scope of the invention, as set forth in the appended claims.
What is claimed is: An angle gauge which comprises connected angularly related intersecting first and second rigid body members; three fixed projections extending from the first of the rigid body members in spaced relationship to each other in a triangular arrangement, i. An angle gauge which comprises first and second rigid body members; means pivotally connecting the body members together for relative angular adjustment; means for locking the two body members in a selected angular relationship; three fixed projections extending from the first of the rigid body members in spaced relationship to each other in a triangular arrangement, i.
An angle gauge which comprises first and second rigid body members; means including a hinge pin pivotally connecting the body members together for relative angular adjustment; means at the pivotal connection for looking the two body members in a selected angular relationship; three fixed projections extending from the first of the rigid body members in spaced relationship to each other in a triangular arrangement, i.
The gauge of claim 1 in which the three fixed spaced projections extending from said one of the facing surfaces are not aligned.