INFORMATION SHEET 1.3-5The principle parts of an outside micrometer ar terjemahan - INFORMATION SHEET 1.3-5The principle parts of an outside micrometer ar Bahasa Indonesia Bagaimana mengatakan

INFORMATION SHEET 1.3-5The principl

INFORMATION SHEET 1.3-5

The principle parts of an outside micrometer are the anvil, spindle, frame, barrel, and thimble. Some micrometer are equipped with a lock and ratchet stop.

The anvil is one of the two measuring faces between which the work is measured.
The anvil is mounted in the frame opposite the spindle face.

The spindle is the other of the two measuring faces of the micrometer. A clockwise
rotation of the thimble will cause the spindle to move toward the anvil, while a
counterclockwise rotation of the thimble will cause the spindle to move away from
the anvil.

The frame holds the anvil an place, and is also held in the machanic’s hand when he is
measuring or working with the micrometer.

The barrel of a micrometer that has a range of one inch is divided into ten main
divisions, each division equaling one-hundred thousand of an inch (0.100). Each
main division of the barrel is then subdivided into four equal subdivisions of twenty-five
thousand (0.025) of an inch (figure 25 and figure 26)

The thimble has a beveled edge that is divided into 25 equal divisions. Each of these
divisions equals one thousand of an inch (0.001). Them divisions are marked, for
convenience, at every five spaces by 0, 5, 10, 15, and 20. One complete turn of the
thimble will move the spindle twenty-five thousand (0.025) of an inch (Figure 26).

The size of a micrometer is the maximum measurement which may be made with
the micrometer. The size is determined by the size of the frame. Because the spindle
has a maximum movement of one inch, micrometers can only measure objects that
are one inch or less smaller than the micrometer. For example, a1-inch micrometer
may only be used to measure items with a diameter between 0 and 1 inch. A 3-inch
micrometer can only be used to measure objects which have a diameter between 2
inches and 3 inches. If and objects is approximately 3-1/4 inches, a 4-inch micrometer
would be used to take the measurement. A 4-inch micrometer can measure a
dimension from 3 inches to 4 inches. To find the approximate measurement of an
object, use a rule or a simple caliper. Inside and depth micrometers have different
sizes of extension rods which are used to determine the approximate dimension
within 1 inch.

The first step in learning to use a micrometer is to hold it correctly (figure 27).
The thumb and first finger are used to turn the thimble until the anvil and spindle just
touch the material . Only a very slight tension or light touch should be pplied, and it
should be the same every time the micrometer is used.

To read the scale to four (4) decimal places, estimate the number of
tenths the thimble scale mark has gone past the barrel scale. Add 0.0001 inch for
each of 1/10 of the distance between the marks. Look at measurement B in Figure
29. The thimble scale mark has gone 0.0007 past the barrel scale. The 0.0007 is
added to the thimble scale reading, 0.014.

0/5000
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INFORMATION SHEET 1.3-5The principle parts of an outside micrometer are the anvil, spindle, frame, barrel, and thimble. Some micrometer are equipped with a lock and ratchet stop.The anvil is one of the two measuring faces between which the work is measured.The anvil is mounted in the frame opposite the spindle face.The spindle is the other of the two measuring faces of the micrometer. A clockwise rotation of the thimble will cause the spindle to move toward the anvil, while acounterclockwise rotation of the thimble will cause the spindle to move away fromthe anvil. The frame holds the anvil an place, and is also held in the machanic’s hand when he ismeasuring or working with the micrometer.The barrel of a micrometer that has a range of one inch is divided into ten maindivisions, each division equaling one-hundred thousand of an inch (0.100). Eachmain division of the barrel is then subdivided into four equal subdivisions of twenty-fivethousand (0.025) of an inch (figure 25 and figure 26)The thimble has a beveled edge that is divided into 25 equal divisions. Each of these divisions equals one thousand of an inch (0.001). Them divisions are marked, for convenience, at every five spaces by 0, 5, 10, 15, and 20. One complete turn of the thimble will move the spindle twenty-five thousand (0.025) of an inch (Figure 26).The size of a micrometer is the maximum measurement which may be made withthe micrometer. The size is determined by the size of the frame. Because the spindlehas a maximum movement of one inch, micrometers can only measure objects thatare one inch or less smaller than the micrometer. For example, a1-inch micrometermay only be used to measure items with a diameter between 0 and 1 inch. A 3-inchmicrometer can only be used to measure objects which have a diameter between 2inches and 3 inches. If and objects is approximately 3-1/4 inches, a 4-inch micrometer would be used to take the measurement. A 4-inch micrometer can measure adimension from 3 inches to 4 inches. To find the approximate measurement of an object, use a rule or a simple caliper. Inside and depth micrometers have differentsizes of extension rods which are used to determine the approximate dimension within 1 inch.The first step in learning to use a micrometer is to hold it correctly (figure 27). The thumb and first finger are used to turn the thimble until the anvil and spindle justtouch the material . Only a very slight tension or light touch should be pplied, and itshould be the same every time the micrometer is used. To read the scale to four (4) decimal places, estimate the number oftenths the thimble scale mark has gone past the barrel scale. Add 0.0001 inch foreach of 1/10 of the distance between the marks. Look at measurement B in Figure29. The thimble scale mark has gone 0.0007 past the barrel scale. The 0.0007 isadded to the thimble scale reading, 0.014.
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INFORMASI LEMBAR 1,3-5 Bagian Prinsip dari mikrometer luar adalah landasan, spindle, bingkai, barel, dan bidal. Beberapa mikrometer dilengkapi dengan kunci dan ratchet berhenti. anvil adalah salah satu dari dua wajah berukuran antara yang pekerjaan diukur. anvil tersebut dipasang di bingkai berlawanan wajah spindle. spindle adalah lain dari dua wajah pengukuran mikrometer. Sebuah searah jarum jam rotasi bidal akan menyebabkan poros bergerak menuju landasan, sementara rotasi berlawanan dari bidal akan menyebabkan poros untuk menjauh dari landasan. Bingkai memegang landasan tempat, dan juga diadakan di tangan machanic ini ketika dia mengukur atau bekerja dengan mikrometer. Laras dari mikrometer yang memiliki jangkauan satu inci dibagi menjadi sepuluh utama divisi, setiap divisi menyamai per seratus ribu inci (0.100). Setiap divisi utama laras kemudian dibagi menjadi empat subdivisi sama dua puluh lima ribu (0.025) dari satu inci (gambar 25 dan angka 26) bidal memiliki tepi miring yang dibagi menjadi 25 divisi yang sama. Masing-masing divisi sama seribu inci (0,001). Mereka divisi ditandai, untuk kenyamanan, di setiap lima ruang oleh 0, 5, 10, 15, dan 20. Satu putaran penuh dari bidal akan memindahkan spindle dua puluh lima ribu (0.025) dari satu inci (Gambar 26). The ukuran mikrometer adalah pengukuran maksimum yang dapat dibuat dengan mikrometer. Ukurannya ditentukan oleh ukuran frame. Karena poros memiliki gerakan maksimum satu inci, mikrometer hanya dapat mengukur objek yang berada satu inci atau kurang lebih kecil dari mikrometer. Misalnya, a1 inci mikrometer hanya dapat digunakan untuk mengukur item dengan diameter antara 0 dan 1 inci. Sebuah 3-inch mikrometer hanya dapat digunakan untuk mengukur objek yang memiliki diameter antara 2 inci dan 3 inci. Jika dan benda-benda sekitar 3-1 / 4 inci, mikrometer 4 inci akan digunakan untuk mengambil pengukuran. Sebuah mikrometer 4-inch dapat mengukur dimensi dari 3 inci sampai 4 inci. Untuk menemukan pengukuran perkiraan dari suatu objek, menggunakan aturan atau caliper sederhana. Di dalam dan kedalaman mikrometer memiliki berbagai ukuran batang ekstensi yang digunakan untuk menentukan dimensi perkiraan dalam 1 inci. Langkah pertama dalam belajar menggunakan mikrometer adalah untuk memegangnya dengan benar (gambar 27). Para ibu jari dan jari telunjuk digunakan untuk mengubah bidal sampai anvil dan spindle hanya menyentuh materi. Hanya ketegangan sangat sedikit atau sentuhan ringan harus pplied, dan harus sama setiap kali mikrometer yang digunakan. Untuk membaca skala sampai empat (4) tempat desimal, memperkirakan jumlah persepuluh tanda skala bidal telah melewati skala barel. Tambahkan 0,0001 inci untuk masing-masing 1/10 jarak antara tanda. Lihatlah pengukuran B pada Gambar 29. Tanda skala thimble telah 0,0007 masa lalu skala barel. The 0,0007 adalah ditambahkan ke pembacaan skala bidal, 0.014.
















































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