US1902387A - Box shaped water level - Google Patents

Box shaped water level Download PDF

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Publication number
US1902387A
US1902387A US520418A US52041831A US1902387A US 1902387 A US1902387 A US 1902387A US 520418 A US520418 A US 520418A US 52041831 A US52041831 A US 52041831A US 1902387 A US1902387 A US 1902387A
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Prior art keywords
water level
liquid
air bubble
elastic container
box shaped
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Expired - Lifetime
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US520418A
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Hofe Christian Von
Schier Johann
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Optische Anstalt CP Goerz AG
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Optische Anstalt CP Goerz AG
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01CMEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
    • G01C9/00Measuring inclination, e.g. by clinometers, by levels
    • G01C9/18Measuring inclination, e.g. by clinometers, by levels by using liquids
    • G01C9/24Measuring inclination, e.g. by clinometers, by levels by using liquids in closed containers partially filled with liquid so as to leave a gas bubble
    • G01C9/26Details
    • G01C9/30Means for adjusting dimensions of bubble

Definitions

  • the box shaped water levels heretofore in use more particularly the focus water levels of telescopes used for astronomic, navigation and bomb throwing purposes are open to the objection that owing .to the difference in the dilation coefiicient of the liquid of the water level and the glass body enclosing this liquid the air bubble of the water level increases at low temperatures to such an extent that it becomes difiicult to bring the, point observed exactly into the centre of the air bubble.
  • the object of the present invention is to provide a device adapted to automatically maintain approximatel 1 constant the size of the air bubble of box-s aped or focus water levels notwithstanding the maximum varia tions of temperature that may occur in practioe after the size of the said bulb has-been adjusted at will and to so construct the said device that it ma be mounted on a telescope, more partic arly on an aiming telescope, in a position in which it is r0- tected as far as possible from injury rom the outside.
  • the actuating devices for the elas-, tic container and the pressure transmitting elements are so proportioned and selected that by compensating for the dilation of 4 these elements by heat the size of the air bubble is automatically maintained constant very nearly.
  • the said device for adjusting the size of the air bubble may be mounted in a casing on the cover of the water level frame.
  • Fig. l is a longitudinal section and Fig. 2 is a transverse section of the device.
  • the water level frame 2 is mounted in a laterally open extension '1 of the telesco e casing.
  • this frame 2 are mounted t 6 bottom lens 3, the intermediate glass or metal ring 4 ground spherically on its top and bottom side and the top lens 5.
  • the cover plate 8 is bolted to the water level frame 2 for closing the 'extension 1 of the telescope casing.
  • a button 9a/on the elastic container 9 is seated in a central recess in the cover plate 8.
  • buttons 96 on the opposite side of the con- G, BBATISLAVA, CZEGHOSIQOVAKIA, A. 601- tainer is seated in a flanged pressure plate .IOmOunted on the central pin 11 of a ca 12 provided with an internal screw threa This cap is screwed on a casing 13 which in turn is screwed on a threaded flange 8a of the cover plate 8 A pin 14 fixed in the casing 13 and engaging into a slot in a flange of the pressure plate 10 revents this plate 10 turned.
  • the elastic container 9 communicates with the liquid containing chamber of the water level through a central bore in the button 9a, the cover plate 8, the water level from turning when t e' cap 12 is casing 2 and a slot in the intermediate ring 4. If now the elastic container were fully filled with water level liquid, the air bubble 6a would increase in size at any decrease of temperature owing to the contraction of the Eli liquid which notably exceeds the contraction of the parts enclosing the said liquid.
  • a reduction of the size of the air bubble may be brought about by exerting a suitable pressure on the elastic container 9 by turning the cap 12.
  • the casing 13 and the ca g i 12 are made of a material havin a coe cient 0: dilation as great as possib e for instance of an aluminum. silicon alloy. Then in the case of a decrease of temperature the pin 11 will contract to a less extent than the casing 13 and the cover 12. Consequently the pressure on the elastic container is increased, so that in this way too an increase of the air bubble in case of a decrease in temperature is automatically prevented. or at least reduced.
  • a box shaped water level comprising a liquid chamber enclosing the air bubble of the Water level, an elastic container filled with the liquid of the said Water level and communicating with the said liquid chamber, means for exerting external pressure on the said elastic container and a structure supporting the said liquid chamber, elastic container and pressure exerting means, the proportions of the arts of the said pressure exerting means and the coeficients ofdila-

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Radar, Positioning & Navigation (AREA)
  • Remote Sensing (AREA)
  • Table Devices Or Equipment (AREA)

Description

March 21, 1933, C, VON HOP U AL 1,902,387
BOX SHAPED WATER LEVEL Filed March 5, 1931 Patented Mar. 21, 1933 UNITED; s'rATas PATENT OFFICE OHBISTLEAN VON HOI'E AND d'OHANN SCHIE R, OF VIENNA, AUSTRIA, AB SIGNOBS 'IO ACTIEHGESELLBCEAI'T C. P. GOEBZ OPTISCHE ANSTALT ACTIOVA STOLECNOST-K. P.
GOEBZ OPTICKY USTAV, OB PBESSBUR PAIN! OF OZECKOSLOVAKIA :Box swan warna LEVEL .lppflcationiled larch 5, 1931, Serial No. 520,418, and in 'Gemany March 8; 1830. i
The box shaped water levels heretofore in use more particularly the focus water levels of telescopes used for astronomic, navigation and bomb throwing purposes are open to the objection that owing .to the difference in the dilation coefiicient of the liquid of the water level and the glass body enclosing this liquid the air bubble of the water level increases at low temperatures to such an extent that it becomes difiicult to bring the, point observed exactly into the centre of the air bubble. For this reason it has already been proposed to use in box shaped water levels of this class, arrangements in which the liquid contents of the water level are in communication with the liquid contents of an elastic container fully filled'with liquid and in which the pressure exerted on the said vessel by turning a screw may be so adjusted that the pressure within the liqaid and consequently also the size of the air bubble may be adjusted at will.
The object of the present invention is to provide a device adapted to automatically maintain approximatel 1 constant the size of the air bubble of box-s aped or focus water levels notwithstanding the maximum varia tions of temperature that may occur in practioe after the size of the said bulb has-been adjusted at will and to so construct the said device that it ma be mounted on a telescope, more partic arly on an aiming telescope, in a position in which it is r0- tected as far as possible from injury rom the outside.
With this object in view according to the present invention the dimensions and the materials of the parts constituting the boxshaped or focus water level and more particularly the liquids of the water level, the
air filling, the actuating devices for the elas-, tic container and the pressure transmitting elements are so proportioned and selected that by compensating for the dilation of 4 these elements by heat the size of the air bubble is automatically maintained constant very nearly. Thereby also the further advantage may be obtained that the said device for adjusting the size of the air bubble may be mounted in a casing on the cover of the water level frame.
The drawing illustrates by wayof example an embodiment of the present invention. Fig. l is a longitudinal section and Fig. 2 is a transverse section of the device.
The water level frame 2 is mounted in a laterally open extension '1 of the telesco e casing. In this frame 2 are mounted t 6 bottom lens 3, the intermediate glass or metal ring 4 ground spherically on its top and bottom side and the top lens 5. The water level liquid 6 with/the air bubble 6a threaded ring 7. The cover plate 8 is bolted to the water level frame 2 for closing the 'extension 1 of the telescope casing. A button 9a/on the elastic container 9 is seated in a central recess in the cover plate 8. A
button 96 on the opposite side of the con- G, BBATISLAVA, CZEGHOSIQOVAKIA, A. 601- tainer is seated in a flanged pressure plate .IOmOunted on the central pin 11 of a ca 12 provided with an internal screw threa This cap is screwed on a casing 13 which in turn is screwed on a threaded flange 8a of the cover plate 8 A pin 14 fixed in the casing 13 and engaging into a slot in a flange of the pressure plate 10 revents this plate 10 turned.
The elastic container 9 communicates with the liquid containing chamber of the water level through a central bore in the button 9a, the cover plate 8, the water level from turning when t e' cap 12 is casing 2 and a slot in the intermediate ring 4. If now the elastic container were fully filled with water level liquid, the air bubble 6a would increase in size at any decrease of temperature owing to the contraction of the Eli liquid which notably exceeds the contraction of the parts enclosing the said liquid.
A reduction of the size of the air bubble may be brought about by exerting a suitable pressure on the elastic container 9 by turning the cap 12.
If, however, the elastic container is not completely filled with liquid but an air bubble is left in the same which is considerably greater than the air bubble of the Water level, then ex erience shows that the size of the air hub is remains almost unaltered even if the temperature decreases by 50 C. A simple computation shows that the variations of the size of the air bubble of the water level are the smaller, the larger the contents in air of the elastic container and the smaller the total contents in liquid of the Water level 6 and of the elastic container 9 are.
A similar compensation of the dilations by heat is arrived at when the pressure plate 10 and the pin 11 are made of amaterial having as small a coeliicient of dilation moans": v
tion by heat of the sup orting means and pressure exerting means ing such that the dilations by heat of the said elements substantiall compensate for each other whereh the size of the air bubble in the said air 0 amber-is automatically kept constant substantially in case of variations of temperature.
In testimony whereof we afiix our signatures.
CHRISTIAN VON HOFE. JOHANN SCH IER.
as possible, for instance of steel While the casing 13 and the ca g i 12 are made of a material havin a coe cient 0: dilation as great as possib e for instance of an aluminum. silicon alloy. Then in the case of a decrease of temperature the pin 11 will contract to a less extent than the casing 13 and the cover 12. Consequently the pressure on the elastic container is increased, so that in this way too an increase of the air bubble in case of a decrease in temperature is automatically prevented. or at least reduced.
What we claim is:
1. A hex shaped ,water level coin rising at liquid chamber enclosing the air ulehle of the Water level, an elastic container filled with the liquid of the said Water level and communicating with the said liquid chamber, means for exerting emrnal pressure on the said elastic container and a structure supporting the said liquid chamber, elastic container and pressure exerting means, the proportions and materials of the said elemanta being such that the dilations by heat of the said-elements substantially compensate for each other whereby the siwe of the air bubble in the said air chamber is automatically kept constant substantially in case of variations of temperature.
2. A box shaped water level comprising a liquid chamber enclosing the air bubble of the Water level, an elastic container filled with the liquid of the said Water level and communicating with the said liquid chamber, means for exerting external pressure on the said elastic container and a structure supporting the said liquid chamber, elastic container and pressure exerting means, the proportions of the arts of the said pressure exerting means and the coeficients ofdila-
US520418A 1930-03-08 1931-03-05 Box shaped water level Expired - Lifetime US1902387A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2505166A (en) * 1945-07-25 1950-04-25 Hilger & Watts Ltd Spirit level
US2627786A (en) * 1948-07-20 1953-02-10 Simmon Brothers Inc Adjustable liquid color filter for photographic enlargers
US3245150A (en) * 1963-01-07 1966-04-12 Roe Grade gauge
US3267795A (en) * 1961-02-20 1966-08-23 American Optical Corp Temperature compensated refractometers
US3281947A (en) * 1963-06-21 1966-11-01 William B Mcdowell Constant bubble indicator
US3377910A (en) * 1963-02-15 1968-04-16 Zeiss Stiftung Stabilzed optical instrument utilizing box level bubble as lens

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2505166A (en) * 1945-07-25 1950-04-25 Hilger & Watts Ltd Spirit level
US2627786A (en) * 1948-07-20 1953-02-10 Simmon Brothers Inc Adjustable liquid color filter for photographic enlargers
US3267795A (en) * 1961-02-20 1966-08-23 American Optical Corp Temperature compensated refractometers
US3245150A (en) * 1963-01-07 1966-04-12 Roe Grade gauge
US3377910A (en) * 1963-02-15 1968-04-16 Zeiss Stiftung Stabilzed optical instrument utilizing box level bubble as lens
US3281947A (en) * 1963-06-21 1966-11-01 William B Mcdowell Constant bubble indicator

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