US649708A - Mechanical movement. - Google Patents

Mechanical movement. Download PDF

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US649708A
US649708A US591800A US1900005918A US649708A US 649708 A US649708 A US 649708A US 591800 A US591800 A US 591800A US 1900005918 A US1900005918 A US 1900005918A US 649708 A US649708 A US 649708A
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levers
link
lever
links
pivoted
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US591800A
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Edwin J Prindle
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16HGEARING
    • F16H21/00Gearings comprising primarily only links or levers, with or without slides
    • F16H21/10Gearings comprising primarily only links or levers, with or without slides all movement being in, or parallel to, a single plane
    • F16H21/16Gearings comprising primarily only links or levers, with or without slides all movement being in, or parallel to, a single plane for interconverting rotary motion and reciprocating motion
    • F16H21/18Crank gearings; Eccentric gearings
    • F16H21/22Crank gearings; Eccentric gearings with one connecting-rod and one guided slide to each crank or eccentric
    • F16H21/32Crank gearings; Eccentric gearings with one connecting-rod and one guided slide to each crank or eccentric with additional members comprising only pivoted links or arms
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/18Mechanical movements
    • Y10T74/18056Rotary to or from reciprocating or oscillating
    • Y10T74/18176Crank, pitman, lever, and slide

Definitions

  • FIG. 1 is a perspective view of my invention applied to a table, the board forming the top being removed.
  • Fig. 2 is a side elevation of the structure shown in Fig. 1 when used as a seesaw, the latter being shown in full lines in one extreme position and in dotted lines in the opposite extreme position.
  • Fig. 3 is a side elevation of the structure shown in Fig. 1 when used as a step-ladder.
  • Fig. 4c shows in side elevation an alternative construction of seesaw.
  • Fig. 5 illustrates my invention applied to an upright engine, and
  • Fig. 6 is an illustration of a beam-engine having the same capacity for movement as the engine illustrated in Fig. 5.
  • the object of my invention is to produce a mechanical movement which, among other uses, is capable of being applied to the construction of a combination article of furniture, the latter being adapted at different times, among other things, to serve as a table, a step-ladder, and a seesaw; and to such ends myinvention consists in the combination article of furniture hereinafter specified, substantially as and for the purpose described.
  • a frame which consists, essentially, of a link A, two levers B and 0, each of which is pivoted at one end to the link A, and a link D, to which the opposite ends of the levers B and C are pivoted.
  • the links can be of equal or of different lengths, as can also be the levers. While I have described and can construct each of the links A and D and levers B and O of a single piece, I prefer to form them of parallel bars that are spaced apart, the parallel.
  • braces which connect the side bars of the link D and of the lever B of round rods (l and 1) similar to the rounds of a ladder, although steps set at'an angle, such as are commonly used on step-ladders, or other form of bracing can be used.
  • hinge-plates are attached to the bars of the lever 13, two of them B and B being pivoted to the link A and two B and 13 to the link D.
  • Each of such hinge-plates is preferably so formed that the pivot-hole thereof is offset to one side of the lever B toward that link to which it is pivoted, so that the lever 13 and the links A and D can be folded against each other in parallel position for convenience in storing.
  • the pivot-holes of the levers B and G can, if desired, be located in the longitudinal central lines of their side bars.
  • ge-plates l3 and 13 connecting the lever B with the link D are located on the inner sides of the bars of the lever and pivoted on pinsE and E, which are fastened to the side bars of the link D, preferably by having a shoulder E, which bears against the hinge-plate and by having their outer ends passed through washers E and upset.
  • pinsE and E which are fastened to the side bars of the link D, preferably by having a shoulder E, which bears against the hinge-plate and by having their outer ends passed through washers E and upset.
  • necks E outside of which are flanges E The bars forming the lever O are similarly pivoted to the opposite ends of the bars of the link D and by similar pins, except that the hinge-plates are located outside of such bars and that the Washers are omitted.
  • the hinge connections between the lever B and link A are similar to those between such lever and the link D, except that the pins are formed without the necks and flanges.
  • the connection between the hinge plates U and G of each bar of the lever C and the corresponding bar of the link A is by meansof a pin F, which is formed on or secured to such hinge-plate O and which projects through and beyond such The bar, the pin having a groove or hole F, which is engaged by a hook G or notched plate that is pivoted on the link A, such engagement preventing the withdrawal of the pin from the'hole through the bar.
  • a pin H Near the central portion of one or both of the bars of the lever O is a pin H, which occupies a hole I in such bar and is adapted to be thrust into a hole K in the adjacent bar of the lever B when the holes are in alinement.
  • the pin has a lug H, which is adapted to bear on the outer surface of the bar of the lever'O and prevent engagement of the pin with the bar of the lever B.
  • An enlarge ment 1' of the hole I in the bar of the lever C is provided to permit the lug II to pass through such bar, and a spring-plate L is secured to such bar and is provided with a hole for the passage of the pin H, such plate bearing against the lug II when the pin is withdrawn to inoperative position, and thus preventing the detachment of the pin from the bar of the lever O.
  • the link D is hung a platform M, which is conveniently supported from the pins by a cord N, which passes over the necks of the pins and has its ends passed through holes in the platform and knotted.
  • a cord N which passes over the necks of the pins and has its ends passed through holes in the platform and knotted.
  • the last round dis farther from the ends of the bars than at the opposite end of such link, and at such first-mentioned end I provide one or more pairs of knobs O and O, which are attached opposite to each other to the insides of the bars of the link and serve for supporting the platform M at such end at different points along the bars.
  • the platforms M and M which are suspended by the cords N and N,
  • the extra knobs O and 0 provide for adjusting one of the shelves in or out.
  • the platforms M and M which are suspended from the link D, serve as seats, and when the link is set in motion the seats alternately rise and fall with a motion that has a long vertical com poncntand a comparatively-short horizontal component.
  • the amount of upand-down motion obtained is about equal to that of the ends of a lever having twice the length of the link D when such lever is mounted on a fixed fulcrum, as in the case of the ordinary seesaw.
  • both the upper and the lower link can be made of rope or other flexible connection.
  • the lower link may be dispensed with by placing the lower ends of the levers in depressions in the ground or between fixed objects.
  • the link 0 connects the lower end of the ladder, consisting of the link D, with the prop, consisting of the lever B, and effectively prevents such prop from sliding forward. There is but slight chance that the prop will be forced toward the ladder and allow the latter to fall; but if desired such action can be eifectively prevented by connecting the lever B with the link A or with the link 0, as bya hook I, as
  • the levers B and O of my mechanical movement are, in effect, the same as though a lever having a length equal to theircombined length were divided at the fulcrum into two levers and these levers were fulcrumed at points which are separated from each other by the length of the link A, the levers being disposed in opposite directions and parallel.
  • the link D communicates the motion of one lever to the other, so that with a structure only half as long as the original lever the same amountof vertical motion of the ends of the levers is produced for a given amount of angular motion of such levers. I thus have a mechanical movement which is very compact in a longitudinal direction and which serves the purpose of a lever twice its length.
  • Fig. 4 I have illustrated an alternative construction in which two levers Q and Q are fulcrumed on links R and R, which are pivoted to the base S at some distance apart. Between the links is a pillar T, on which is fulcrumed a connecting-lever U, which is pivoted at each end to one of the levers Q and Q.
  • Such construction is equivalent to a single lever having a length equal to twice the distance from the end of one of the levers Q to its fulcrum R. The construction is thus shorter than a single lever by the distance between the two links R and R, and with the same degree of angular movement produces the same travel of the lever ends.
  • Fig. 5 I have illustrated my mechanical movement as applied to a marine engine in place of the usual beam.
  • my mechanical movement consisting of a stationary link U, at whose ends are pivoted two levers U and U ,which are crossed and pivoted at their upper ends to an upper link U
  • a connecting-rod V To one end of the upper link U is pivoted a connecting-rod V, whose lower end is pivoted to the piston-rod V
  • a connecting-rod XV To the opposite end of the upper link U is pivoted a connecting-rod XV, whose lower end is pivoted on the crank-pin W of the crank-shaft 11V.
  • a structure comprising crossed levers, a link connection between them and above their ci'ossingpoint, and distinct and independently-usable means connected with the levers above their crossing-point, at points removed from the longitudinal center of such link connection, substantially as and for the purpose described.
  • a structure comprising crossed levers, upper and lower link connections on opposite sides of their crossing'point, and distinct and indcpendently-usable means connected with the levers on the upper side of such crossingpoint, at points removed from the longitudinal center of the upper of such link connections, substantially as and for the purpose described.
  • a structure comprising crossed levers, upper and lower link connections between said levers and on opposite sides of the crossing-point of the levers, and two distinct and independently-usable means connected with the upper of said links, at. points removed from the longitudinal center thereof, substantially as and for the purpose described.
  • a structure comprising crossed levers,
  • a structure comprising two crossed le- Vers, upper and lower links which are pivoted to said levers, and two platforms carried by said structure on the upper side of the crossing-point of such levers, substantially as described.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Ladders (AREA)

Description

No. 649,708. Patented May l5, I900.
E. J. PRINDLE. MECHANICAL MOVEMENT.
(Application filed Feb. 20, 1900.)
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MECHANICAL MOVEMENT.
(Application filed Feb. 20, 1900.)
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No. 649,708. Patented May I5, I900.
E. J. PRINDLE. MECHANICAL MOVEMENT.
(Application filed Feb 20, 1900.)
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Uwrrhio STATES PATENT owes.
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MECHANICAL MOVEMENT.
SPECIFICATION forming part of Letters Patent No. 649,708, dated May 15, 1960.
Application filed February 20, 1900. Serial No. 5,918. (No model.)
To all whom it may concern.-
Be it known that I, EDWIN J. PRINDLE, of -\r ashington, in the District of Colu1nbia,have invented certain new and useful Improvements in Mechanical Movements; and I do hereby declare that the following is a full, clear, and exact description thereof, reference being had to the accompanying drawings, in which-'- Figure 1 is a perspective view of my invention applied to a table, the board forming the top being removed. Fig. 2 is a side elevation of the structure shown in Fig. 1 when used as a seesaw, the latter being shown in full lines in one extreme position and in dotted lines in the opposite extreme position. Fig. 3 is a side elevation of the structure shown in Fig. 1 when used as a step-ladder. Fig. 4c shows in side elevation an alternative construction of seesaw. Fig. 5 illustrates my invention applied to an upright engine, and
Fig. 6 is an illustration of a beam-engine having the same capacity for movement as the engine illustrated in Fig. 5.
Letters of like name and kind refer to like parts in each of the figures.
The object of my invention is to produce a mechanical movement which, among other uses, is capable of being applied to the construction of a combination article of furniture, the latter being adapted at different times, among other things, to serve as a table, a step-ladder, and a seesaw; and to such ends myinvention consists in the combination article of furniture hereinafter specified, substantially as and for the purpose described.
In carrying my invention into practice I provide a frame which consists, essentially, of a link A, two levers B and 0, each of which is pivoted at one end to the link A, and a link D, to which the opposite ends of the levers B and C are pivoted. I prefer to pivot the levers to the opposite ends of the links; but if desired either the levers or the links can be extended beyond the pivots. The links can be of equal or of different lengths, as can also be the levers. While I have described and can construct each of the links A and D and levers B and O of a single piece, I prefer to form them of parallel bars that are spaced apart, the parallel. bars A and D of the links A and D and the bars B of the lever 13 being braced by oross-pieces, and the parallel bars of the lever 0 being outside of and farther apart than the bars to which they are pivoted. I prefer to form the braces which connect the side bars of the link D and of the lever B of round rods (l and 1), similar to the rounds of a ladder, although steps set at'an angle, such as are commonly used on step-ladders, or other form of bracing can be used.
Four hinge-plates are attached to the bars of the lever 13, two of them B and B being pivoted to the link A and two B and 13 to the link D. Each of such hinge-plates is preferably so formed that the pivot-hole thereof is offset to one side of the lever B toward that link to which it is pivoted, so that the lever 13 and the links A and D can be folded against each other in parallel position for convenience in storing. I have shown the four hinge-plates that are carried by the parallel bars forming the lever C as oifset in a similar manner, the object being to make the levers symmetrical to each other in appearance. The pivot-holes of the levers B and G can, if desired, be located in the longitudinal central lines of their side bars. 11in ge-plates l3 and 13 connecting the lever B with the link D, are located on the inner sides of the bars of the lever and pivoted on pinsE and E, which are fastened to the side bars of the link D, preferably by having a shoulder E, which bears against the hinge-plate and by having their outer ends passed through washers E and upset. On the inner ends of the pins are formed necks E outside of which are flanges E The bars forming the lever O are similarly pivoted to the opposite ends of the bars of the link D and by similar pins, except that the hinge-plates are located outside of such bars and that the Washers are omitted. The hinge connections between the lever B and link A are similar to those between such lever and the link D, except that the pins are formed without the necks and flanges. The connection between the hinge plates U and G of each bar of the lever C and the corresponding bar of the link A is by meansof a pin F, which is formed on or secured to such hinge-plate O and which projects through and beyond such The bar, the pin having a groove or hole F, which is engaged by a hook G or notched plate that is pivoted on the link A, such engagement preventing the withdrawal of the pin from the'hole through the bar.
Near the central portion of one or both of the bars of the lever O is a pin H, which occupies a hole I in such bar and is adapted to be thrust into a hole K in the adjacent bar of the lever B when the holes are in alinement. The pin has a lug H, which is adapted to bear on the outer surface of the bar of the lever'O and prevent engagement of the pin with the bar of the lever B. An enlarge ment 1' of the hole I in the bar of the lever C is provided to permit the lug II to pass through such bar, and a spring-plate L is secured to such bar and is provided with a hole for the passage of the pin H, such plate bearing against the lug II when the pin is withdrawn to inoperative position, and thus preventing the detachment of the pin from the bar of the lever O.
From each of the pairs of pins E and E 011 the link D is hung a platform M, which is conveniently supported from the pins by a cord N, which passes over the necks of the pins and has its ends passed through holes in the platform and knotted. At one end of the link D the last round dis farther from the ends of the bars than at the opposite end of such link, and at such first-mentioned end I provide one or more pairs of knobs O and O, which are attached opposite to each other to the insides of the bars of the link and serve for supporting the platform M at such end at different points along the bars.
In using the structure above described as a table the link A is placed on the floor and the levers B and O are crossed, which brings the linkD at the top of the structure.
The pin H is now turned so that the lug II is opposite the enlargement of the hole in the ing or other table by laying an ironing or I serve as shelves.
other board upon it. The platforms M and M, which are suspended by the cords N and N, The extra knobs O and 0 provide for adjusting one of the shelves in or out. By providing several holes I in the bar of the lever B the table can be secured at any desired angle through the engagement of the pin H with the proper hole. The structure in the above-described condition can, when the ironing-board is not upon it, conveniently be used as a clothes-rack.
By simply withdrawing the locking-pin II the structure can be used as a seesaw. The platforms M and M, which are suspended from the link D, serve as seats, and when the link is set in motion the seats alternately rise and fall with a motion that has a long vertical com poncntand a comparatively-short horizontal component. The amount of upand-down motion obtained is about equal to that of the ends of a lever having twice the length of the link D when such lever is mounted on a fixed fulcrum, as in the case of the ordinary seesaw. For the purposes of a seesaw both the upper and the lower link can be made of rope or other flexible connection. The lower link may be dispensed with by placing the lower ends of the levers in depressions in the ground or between fixed objects.
By folding the link A against the lever B, as shown in Fig. 3, a convenient step-ladder is produced, the rounds of the link D serving as the rounds of the ladder. The link 0 connects the lower end of the ladder, consisting of the link D, with the prop, consisting of the lever B, and effectively prevents such prop from sliding forward. There is but slight chance that the prop will be forced toward the ladder and allow the latter to fall; but if desired such action can be eifectively prevented by connecting the lever B with the link A or with the link 0, as bya hook I, as
shown.
The levers B and O of my mechanical movement are, in effect, the same as though a lever having a length equal to theircombined length were divided at the fulcrum into two levers and these levers were fulcrumed at points which are separated from each other by the length of the link A, the levers being disposed in opposite directions and parallel. The link D communicates the motion of one lever to the other, so that with a structure only half as long as the original lever the same amountof vertical motion of the ends of the levers is produced for a given amount of angular motion of such levers. I thus have a mechanical movement which is very compact in a longitudinal direction and which serves the purpose of a lever twice its length.
In Fig. 4 I have illustrated an alternative construction in which two levers Q and Q are fulcrumed on links R and R, which are pivoted to the base S at some distance apart. Between the links is a pillar T, on which is fulcrumed a connecting-lever U, which is pivoted at each end to one of the levers Q and Q. Such construction is equivalent to a single lever having a length equal to twice the distance from the end of one of the levers Q to its fulcrum R. The construction is thus shorter than a single lever by the distance between the two links R and R, and with the same degree of angular movement produces the same travel of the lever ends.
In Fig. 5 I have illustrated my mechanical movement as applied to a marine engine in place of the usual beam. On a pillar U between the cylinder V and cranks-shaft W is mounted my mechanical movement, consisting of a stationary link U, at whose ends are pivoted two levers U and U ,which are crossed and pivoted at their upper ends to an upper link U To one end of the upper link U is pivoted a connecting-rod V, whose lower end is pivoted to the piston-rod V To the opposite end of the upper link U is pivoted a connecting-rod XV, whose lower end is pivoted on the crank-pin W of the crank-shaft 11V. 13y such construction the upper ends of the two connecting-rods travel in substantially the same paths as they would if they were, as shown in Fig. 6, connected to the ends of a lever X, having the length of each arm equal substantially to the length of the upper link U of the construction illustrated in Fig. 5. Such result is obtained with substantially the same degree of angular movementof the lever and link and with substantially the same curvature of paths of the upper ends of the connecting-rods. Therefore without sacrificing any advantage by the use of my mechanical movement I can reduce the length of a beam-engine one-half.
I desire it to be understood that my mechanical movement is capable of application to other uses than those to which I have shown it applied.
Having thus described my invention, what I claim is- Y 1. The combination of two crossed levers, two link connections between said levers,such connections being on opposite sides of the crossing-point of the levers, and distinct and independently-usable means connected with the levers on the same side of the crossingpoint thereof as one of said connections, such connections having lengths sufficient to produce motion of said distinct and independently-usable means substantially toward and from the plane of the opposite connection, substantially as and for the purpose described.
2. A structure comprising crossed levers, a link connection between them and above their ci'ossingpoint, and distinct and independently-usable means connected with the levers above their crossing-point, at points removed from the longitudinal center of such link connection, substantially as and for the purpose described.
3. A structurecomprising crossed levers, upper and lower link connections on opposite sides of their crossing'point, and distinct and indcpendently-usable means connected with the levers on the upper side of such crossingpoint, at points removed from the longitudinal center of the upper of such link connections, substantially as and for the purpose described.
at. A structure comprising crossed levers, upper and lower link connections between said levers and on opposite sides of the crossing-point of the levers, and two distinct and independently-usable means connected with the upper of said links, at. points removed from the longitudinal center thereof, substantially as and for the purpose described.
5. A structure comprising crossed levers,
a longer upper link and a shorter lower link connecting said levers on opposite sides of their crossing-point, and distinct and independently-usable means carried by said up per link, at points removed from the 1ongitudinal center thereof, substantially as described.
6. A structure comprising two crossed le- Vers, upper and lower links which are pivoted to said levers, and two platforms carried by said structure on the upper side of the crossing-point of such levers, substantially as described.
'7. The combination of two crossed levers, upper and lower links which are connected to said levers-and platforms carried by the upper of said links at its opposite ends, substantially as described.
8. The combination of two crossed levers, upper and lower links which are connected to said levers, and platforms pivoted to the upper of said links, substantially as and for the purpose described.
9. The combination of two crossed levers, two links which are connected to said levers, and two platforms pivoted to the ends of one of said links, substantially as and for the purpose described.
10. The combination with a structure com prising two crossed levers, and two links which are connected to said levers, of two platforms suspended from two pivots carried by said structure, substantially as and for the purpose described.
11. The combination with a structure comprising two crossed levers, and two links which are connected to said levers, of two platforms pivoted to said structure, and
means for adjusting one of said platforms to ward or from the other, substantially as and for the purpose described.
12. The combination of two crossed levers, two links which are connected to said levers, two platforms which are suspended from one of said links, and a detachable connection between said levers, substantially as and for the purpose described.
13. The combination of two crossed levers, two links which are connected to said levers, two platforms which are suspended from one of said links, means for adjusting one of said platforms along the link from which it is suspended, and a detachable connection between said levers, substantially as and for the pun pose described.
14. The combination of two crossed levers, two links which are pivoted to said levers, and a detachable connection between one of said levers and one of said links, substantially as and for the purpose described.
15. The combination of two crossed levers, two links which are pivoted to said levers, a detachable connection between said levers, and a detachable connection between one of said levers and one of said links, substam tially as described.
16. The combination of a longer link consisting of parallel bars connected by crosspieces, a shorter link, and two levers Which are pivoted to said links, substantially as and 5 for the purpose described.
17. The combination of an upper link consisting of parallel bars connected by crosspieces, a shorter lower link, two levers which are pivoted to said links, and means for detachably and rigidly connecting said levers 10 substantially as and for the purpose described.
In testimony that I claim the foregoing I have hereunto set my hand this 20th day of February, 1900.
EDXVIN J. PRINDLE.
W'itnesses:
G. B. PRINDLE, J. L. LAWLOR.
orreetions in Letters Patent Flo, $49,798
It is hereby certified that in Letters Patent No. 649,708, granted May 15, 1900,
upon the application of Edwin J. Prindle, of Washington, D. (1, for an improvement in Mechanical Movements, errors appear in the printed specification requiring correction as follows: On page 4, line 1, before the word link, the word upper should be inserted; line 3, before the word link, the word lower should be inserted; line 6,
the article an should read a, and the following word upper should be stricken out, and in line 8 the word lower should be stricken out; and that the said Letters Patent should be read with these corrections therein that the same may conform to the record of the case in the Patent Oflice.
Signed, eonntersigned, and sealed this 5th day of June, A. 1)., 1900.
[SEAL] F. L. CAMPBELL,
Assistant Secretary of the Interior. Countersigned O. H. DUELL,
Commissioner of Patents.
US591800A 1900-02-20 1900-02-20 Mechanical movement. Expired - Lifetime US649708A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2830455A (en) * 1955-12-06 1958-04-15 Philadelphia Pump & Machinery Variable stroke pump

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2830455A (en) * 1955-12-06 1958-04-15 Philadelphia Pump & Machinery Variable stroke pump

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