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1927 Johnson Seahorse outboard motor at the Tellus Science Museum. The original company that made Johnson inboard motors and outboard motors was the Johnson Brothers Motor Company of Terre Haute, Indiana, United States. They started building inboard 2-cycle marine engines in 1903 in a barn behind the house, along with matching boats.
Hand-cranked ice cream maker. Nancy Johnson patented the first hand-cranked model in 1843. [7] William Young produced the machine as the "Johnson Patent Ice-Cream Freezer" in 1848. [8] Hand-cranked machines' ice and salt mixture must be replenished to make a batch of ice cream. Usually, rock salt is used.
A fine adjustment screw is a screw with threads between 40 and 100 threads per inch (TPI); 0.5–0.2 mm pitch. An ultra-fine adjustment screw has 100–508 TPI (0.2–0.05 mm pitch). Even though these are non-standard threads, both ISO metric screw thread designations and UNC designations have been used to call out thread dimensions and fit .
Frigidaire refrigerator at the Hallwyl Museum 1922 Frigidaire "iceless" refrigerator newspaper ad. Frigidaire oven with "Division of General Motors" on the front. Frigidaire also produces a wide variety of refrigerators and freezers for the consumer market. Their model line-up includes refrigerator freezer units of several different types.
In 1932 he founded a company called Kulinda and started manufacturing edible ice, but by 1949 the business switched its central product from ice to central air conditioning. [9] The ice machines from the late 1800s to the 1930s used toxic gases such as ammonia (NH 3), methyl chloride (CH 3 Cl), and sulfur dioxide (SO 2) as refrigerants. During ...
Integrated screws appear to be common in the US but are almost unknown in the UK and Europe. The dies shown in the image to the right are adjustable: top left: an older split die, with top adjusting screw; bottom left: a one piece die with top adjusting screw; center: a one piece die with side adjusting screw (barely visible on the full image)
Many differential screw configurations are possible. The micrometer adjuster pictured uses a nut sleeve with different inner and outer thread pitches to connect a screw on the adjusting rod end with threads inside the main barrel; as the thimble rotates the nut sleeve, the rod and barrel move relative to each other based on the differential between the threads.
The nut either operates on the reversing rod directly or through a lever, as above. The screw and nut may be cut with a double thread (aka two-start) and a coarse pitch to move the mechanism as quickly as possible. The wheel is fitted with a locking lever to prevent creep and there is an indicator to show the percentage of cutoff in use.