US470542A - Apparatus for recording the rise and fall of water - Google Patents

Apparatus for recording the rise and fall of water Download PDF

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US470542A
US470542A US470542DA US470542A US 470542 A US470542 A US 470542A US 470542D A US470542D A US 470542DA US 470542 A US470542 A US 470542A
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water
shaft
dial
rise
fall
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01FMEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
    • G01F23/00Indicating or measuring liquid level or level of fluent solid material, e.g. indicating in terms of volume or indicating by means of an alarm
    • G01F23/30Indicating or measuring liquid level or level of fluent solid material, e.g. indicating in terms of volume or indicating by means of an alarm by floats
    • G01F23/40Indicating or measuring liquid level or level of fluent solid material, e.g. indicating in terms of volume or indicating by means of an alarm by floats using bands or wires as transmission elements
    • G01F23/42Indicating or measuring liquid level or level of fluent solid material, e.g. indicating in terms of volume or indicating by means of an alarm by floats using bands or wires as transmission elements using mechanically actuated indicating means

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  • My invention relates to improvements in that variety of machines which are adapted to indicate and record the rise and fall of a body of water and which are therefore especially useful in countries where irrigation is largely resorted to.
  • the object of my invention is to produce a simple, compact, and durable machine of the character described which may be easily adjusted and easily understood, which is not apt to get out of order, and which will indicate and accurately record the slightest rise or fall of water.
  • Figure 1 is a front sectional view of the machine embodying myinvention.
  • Fig. 2 is a broken enlarged detail View, partly in section, showing the connection between the dial-disk and the clock-spindle, and also the construction and arrangement of the recording-stylus.
  • Fig. 3 is an enlarged detail view of a segment of the dial, and
  • Fig. 4 is a plan View of the machine with the case removed.
  • the machine is provided with a suitable frame 10, which serves as a base, the frame consisting of the side pieces 11, having legs 12 at their ends, which legs terminate in suitable feet, and the cross-rods 13, connecting the side pieces and having nuts 14 at their outer ends, so that the side pieces and rods may be firmly united.
  • the cross-rods 13 are preferably provided with shoulders, which abut with the inner sides of the side pieces.
  • the mechanism of the machine is preferably inclosed by a case 15, which may be of any approved form; but which has preferably a glass door in front like the door of an ordinary clock.
  • a shaft 17 which turns in suitable bearings on the side pieces of the frame, and secured to which is a grooved pulley 18, over which runs the cable 19, the cable being socured at one end to a float 20, which is preferably an air-tight vessel, and at the other end to a counterpoise 21.
  • the counterpoise will take up all the slack of the cable, and any rise or fall of the float will cause the pulley 1S and shaft 17 to move.
  • the shaft 17 is provided with a pinion 22 adjacent to the pulley 18, and this pinion meshes with a segmental rack 23, which at its smaller end is secured to a shaft 21, the latter shaft being arranged parallel with the shaft 17 and turning in suitable hearings on the main frame 10.
  • the shaft 24 has one end tapered slightly, as shown at 2% in Figs. 2 and 4, and secured on this tapered portion is an arm 25, having a prolonged upper end 26,which extends vertically upward and is thinner than the arm, and secured to the arm opposite the part 26 is a bar 27, the bar fitting at its lower end against a shoulder 28 on the arm 25.
  • the bar carries a thumb-screw 29, the inner end of which impinges on the prolonged end 26 of the arm 25, and between the bar and the prolongation of the arm is a spring 30, which normally presses the bar outward. It will be seen that by adjusting the thumb-screw 29 the position of the bar in relation to the end 26 of thearm may be adjusted and the position of the stylus carried by the bar regulated.
  • an angular stylus or pen 30 which has clips 3l,which embrace the bar and hold it thereon, and the point of this stylus presses against a dial .32, which is preferably of paper, and which is socured to a metallic disk 83 by means of clips 34:.
  • This disk is provided with a hollow hub 35 on its back, which is secured by means of a set-screw 36.to the spindle 37 of a clock 38, which clock is mounted on bars 39, or their equivalent, and which is adapted to rotate the disk 38.
  • the clock mechanism is not shown in detail, as any ordinary clock may be used; but an eight-day clock is preferably used in connection with the machine, so that it will not need attending to but once a week.
  • the clock-Work is timed so that the disk 33 will make but one complete revolution a week.
  • the dial which is secured to the disk, is divided into seven equal segmental parts 40, as
  • Fig. 3 which parts represent the days of the week and are appropriately lettered, and the parts or segments are divided by sligh tly-diverging lines 4:1,which are curved outward from the center of the disk'and are indicative of the hours of the day, the hours being written in the margin of the dial. These hour-spaces are further subdivided into onequarter-hour spaces, as shown at 4:2 inFig. 3.
  • the dial is also adapted to indicate/the height of water in feet, and to this end it is provided with a series of concentric lines 43, which are produced near. enough together to indicate the one-hundredth part of a foot and may be placed nearer together, if desired.
  • lines 43 are produced near. enough together to indicate the one-hundredth part of a foot and may be placed nearer together, if desired.
  • I have not shown the foot-lines and time-lines so near together, as described, asit is practically almost impossible to pro prise the lines clearly upon the dial, and it will be readily understood from the description that the lines may be placed as near together as desired.
  • the machine is preferably adjusted so that when the float 20 moves one foot the stylus 301 will move the tenth of a foot; but this arrangement is not arbitrary and may be varied, as is necessary or desirable.
  • the operation of the machine is as follows: The machine is placed above the water, so that the float 20may rest upon the Water and have the cable 19 align with the pulley 18, although it will be understood that the float may be placed in any desired position relative to the case, and that the counterpoise 21 will take up the slack of the cable.
  • An apparatus of the characterdescribed comprising a revoluble recording-dial, an oscillating shaft mounted adjacent to the dial, a bar carried by the shaft and adjustable in and out in relation to the dial, a stylus mounted on the bar and held to press upon the dial, a shaft journaled. parallel with the stylusshaft and having a pulley thereon, a rack secured to the stylus-shaft and engaging apinion on the pulley-shaft,andacable extending over the pulley, the cable having a float at one end and a counterpoise at the other,substantially as described.

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  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • General Physics & Mathematics (AREA)
  • Toys (AREA)

Description

.(No Model.) 2 Sheets-Sheet 1.
D. A. CARPENTER. APPARATUS FOR RECORDING THE RISE AND FALL OF WATER.
No. 470,542. Patented Mar. 8, 1892.
2f J4 WITNESSES." in: 3 INVENTOR.
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UNITED STATES PATENT OFFICE.
DON A. CARPENTER, OF FORT COLLINS, COLORADO.
APPARATUS FOR RECORDING THE RISE AND FALL OF WATER.
SPECIFICATION forming part of Letters Patent No. 470,542, dated March 8, 1892.
Application filed October 17, 1891. Serial No. 409,013. (No model.)
To all whom it may concern.
Be it known that I, DoN A. CARPENTER, of Fort Collins, in the county of Larimer and State of Colorado, have invented a new and Improved Apparatus for Indicating and Recording the Rise and Fall of \Vater, of which the following is a full, clear, and exact de scription.
My invention relates to improvements in that variety of machines which are adapted to indicate and record the rise and fall of a body of water and which are therefore especially useful in countries where irrigation is largely resorted to.
The object of my invention is to produce a simple, compact, and durable machine of the character described which may be easily adjusted and easily understood, which is not apt to get out of order, and which will indicate and accurately record the slightest rise or fall of water.
To this end my invention consists in certain features of construction and combinations of parts, which will be hereinafter described and claimed.
Reference is to be had to the accompanying drawings, forming a part of this specification, in which the same figures of reference indicate the same or corresponding parts in all the views.
Figure 1 is a front sectional view of the machine embodying myinvention. Fig. 2 is a broken enlarged detail View, partly in section, showing the connection between the dial-disk and the clock-spindle, and also the construction and arrangement of the recording-stylus. Fig. 3 is an enlarged detail view of a segment of the dial, and Fig. 4 is a plan View of the machine with the case removed.
The machine is provided with a suitable frame 10, which serves as a base, the frame consisting of the side pieces 11, having legs 12 at their ends, which legs terminate in suitable feet, and the cross-rods 13, connecting the side pieces and having nuts 14 at their outer ends, so that the side pieces and rods may be firmly united. The cross-rods 13 are preferably provided with shoulders, which abut with the inner sides of the side pieces.
The mechanism of the machine is preferably inclosed by a case 15, which may be of any approved form; but which has preferably a glass door in front like the door of an ordinary clock.
Mounted transversely in the frame 10,near one end,is a shaft 17, which turns in suitable bearings on the side pieces of the frame, and secured to which is a grooved pulley 18, over which runs the cable 19, the cable being socured at one end to a float 20, which is preferably an air-tight vessel, and at the other end to a counterpoise 21. The counterpoise will take up all the slack of the cable, and any rise or fall of the float will cause the pulley 1S and shaft 17 to move. The shaft 17 is provided with a pinion 22 adjacent to the pulley 18, and this pinion meshes with a segmental rack 23, which at its smaller end is secured to a shaft 21, the latter shaft being arranged parallel with the shaft 17 and turning in suitable hearings on the main frame 10. The shaft 24 has one end tapered slightly, as shown at 2% in Figs. 2 and 4, and secured on this tapered portion is an arm 25, having a prolonged upper end 26,which extends vertically upward and is thinner than the arm, and secured to the arm opposite the part 26 is a bar 27, the bar fitting at its lower end against a shoulder 28 on the arm 25. The bar carries a thumb-screw 29, the inner end of which impinges on the prolonged end 26 of the arm 25, and between the bar and the prolongation of the arm is a spring 30, which normally presses the bar outward. It will be seen that by adjusting the thumb-screw 29 the position of the bar in relation to the end 26 of thearm may be adjusted and the position of the stylus carried by the bar regulated.
At the upper end of the bar 27 is an angular stylus or pen 30,which has clips 3l,which embrace the bar and hold it thereon, and the point of this stylus presses against a dial .32, which is preferably of paper, and which is socured to a metallic disk 83 by means of clips 34:. This disk is provided with a hollow hub 35 on its back, which is secured by means of a set-screw 36.to the spindle 37 of a clock 38, which clock is mounted on bars 39, or their equivalent, and which is adapted to rotate the disk 38.
The clock mechanism is not shown in detail, as any ordinary clock may be used; but an eight-day clock is preferably used in connection with the machine, so that it will not need attending to but once a week. The clock-Work is timed so that the disk 33 will make but one complete revolution a week.
The dial, which is secured to the disk, is divided into seven equal segmental parts 40, as
best shown in Fig. 3, which parts represent the days of the week and are appropriately lettered, and the parts or segments are divided by sligh tly-diverging lines 4:1,which are curved outward from the center of the disk'and are indicative of the hours of the day, the hours being written in the margin of the dial. These hour-spaces are further subdivided into onequarter-hour spaces, as shown at 4:2 inFig. 3.
The dial is also adapted to indicate/the height of water in feet, and to this end it is provided with a series of concentric lines 43, which are produced near. enough together to indicate the one-hundredth part of a foot and may be placed nearer together, if desired. In the drawings I have not shown the foot-lines and time-lines so near together, as described, asit is practically almost impossible to pro duce the lines clearly upon the dial, and it will be readily understood from the description that the lines may be placed as near together as desired.
The machine is preferably adjusted so that when the float 20 moves one foot the stylus 301 will move the tenth of a foot; but this arrangement is not arbitrary and may be varied, as is necessary or desirable.
, The operation of the machine is as follows: The machine is placed above the water, so that the float 20may rest upon the Water and have the cable 19 align with the pulley 18, although it will be understood that the float may be placed in any desired position relative to the case, and that the counterpoise 21 will take up the slack of the cable. When the position of the float varies, the movement of the cable 19 will turn the pulley 18 and shaft 17, and the rack 23, actuated by the pin-" ion 22, will also move and cause the stylus 30 to be swung to the right or lefts, as the case may be, and the stylus will consequently impress a line upon the dial, which line, at the point where it crosses the time-lines, will indicate the exact height of water at any t me of the day or week, the time-lines indicatlng the hour of any given day and the concentric lines the height of Water.
-Having thus described my invention, I claim as new and desire to secure by Letters Patent 1. In a machine of the character described, the combination of the revoluble recordingdial, the stylus held against the dial, an oscillating shaft to carry the stylus, a shaft arranged parallel with the stylus-shaft and provided with a grooved pulley, acable extending over the pulley and having a float at oneend and a counterpoise at-the other, anda pinionandrack mechanism connecting the two shafts, substantially as described.
2. An apparatus of the characterdescribed, comprising a revoluble recording-dial, an oscillating shaft mounted adjacent to the dial, a bar carried by the shaft and adjustable in and out in relation to the dial, a stylus mounted on the bar and held to press upon the dial, a shaft journaled. parallel with the stylusshaft and having a pulley thereon, a rack secured to the stylus-shaft and engaging apinion on the pulley-shaft,andacable extending over the pulley, the cable having a float at one end and a counterpoise at the other,substantially as described.
' DON A. CARPENTER.
- Witnesses:
J AMES W. LAWRENCE, CLARENCE P. GILLETTE.
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