US763833A - Hydraulic intensifier. - Google Patents

Hydraulic intensifier. Download PDF

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Publication number
US763833A
US763833A US16367503A US1903163675A US763833A US 763833 A US763833 A US 763833A US 16367503 A US16367503 A US 16367503A US 1903163675 A US1903163675 A US 1903163675A US 763833 A US763833 A US 763833A
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piston
plunger
tool
displacement
intensifying
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US16367503A
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Chester B Albree
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60TVEHICLE BRAKE CONTROL SYSTEMS OR PARTS THEREOF; BRAKE CONTROL SYSTEMS OR PARTS THEREOF, IN GENERAL; ARRANGEMENT OF BRAKING ELEMENTS ON VEHICLES IN GENERAL; PORTABLE DEVICES FOR PREVENTING UNWANTED MOVEMENT OF VEHICLES; VEHICLE MODIFICATIONS TO FACILITATE COOLING OF BRAKES
    • B60T11/00Transmitting braking action from initiating means to ultimate brake actuator without power assistance or drive or where such assistance or drive is irrelevant
    • B60T11/10Transmitting braking action from initiating means to ultimate brake actuator without power assistance or drive or where such assistance or drive is irrelevant transmitting by fluid means, e.g. hydraulic
    • B60T11/16Master control, e.g. master cylinders
    • B60T11/224Master control, e.g. master cylinders with pressure-varying means, e.g. with two stage operation provided by use of different piston diameters including continuous variation from one diameter to another

Definitions

  • the purpose of my invention is to provide an automatically-acting device by which without any skill or care on the part of the workman the initial adjustment of the machine is effected automatically, no matter what may be the variation in the work to be-performed.
  • My invention consists in employing with the fluid-intensifying piston a second piston of larger area moving automatically therewith, by which the initial motion of the tool is effected, a yielding displacement-chamber which after the tool has reached the limit of its ad- Serial No. 163,676. (No model.)
  • the larger piston is so arranged that it will effect the necessary initial motion of the tool to any extent desired before the intensifyingpiston begins to operate, and after the tool has reached the limit of its initial adjustment the displacement-chamber begins to act as above stated.
  • my invention consists in the combination, with the intensifying-piston and a piston of larger area, of a yielding part backed by yielding pressure greater than the pressure required for the initial adjusting stroke of the plunger and adapted automatically to permit advance of the intensifyingpiston after the working plunger has reached the end of its adjusting stroke.
  • the said yielding part closes the mouth of a chamber or space capable of receiving the fluid displaced after the working plungerhas reached the end of its adjusting stroke.
  • the power by which the machine is operated maybe hydraulic or pneumatic power or it may be applied directly by a mechanical motor.
  • I show the latter connection in Fig. 1, in which the power is derived from a crank 2 and pitman 3, connected with a piston 4, which operates within a cylinder 5, charged with oil or other liquid and connected by way of a cylinder 6 and passage 7 with the working cylinder 8, whose plunger 9 carries the riveting-tool 10 and may be provided with a retracting-spring 11, although this spring may be dispensed with, as shown in Fig. 2, and the piston 9 retracted by suction, as explained below.
  • the piston 4 is hollow, and its interior B constitutes the displacement-chamber.
  • the metal to be riveted or otherwise worked is placed between the tool 10 and its companion tool 10, and the crank 2 is then set in motion.
  • the liquid displaced thereby will move back the yielding head 13 against the spring 14 within the displacement-chamber B.
  • the head 13 When the piston 1 is retracted, the head 13 will be advanced by the spring 14, and as the piston 12 is drawn out of the cylinder 6 the suction created by said piston and during the latter part of the stroke by the piston 4 will retract the plunger 9 to its initial position even if the spring 11 is not employed.
  • the spring 14 should be strong enough to prevent the head 13 from yielding until it encounters the resistance occasioned by the engagement of the tool 10 with the work. This spring should therefore be stronger than the spring 11. It may be replaced by connecting the chamber back of the head 13 with a source of compressed air.
  • the displacement-chamber B in combination with the piston 4, provides for the initial adjustment of the tool and brings it into contact with the work under the relatively low pressure exerted by the piston 1, no matter what may be the thickness of the piece to be operated upon, and that the intensifying-piston at the beginning of its working stroke finds the tool in contact with the work, so that there is no idle motion under the high pressure developed by the intensifying-piston.
  • the action is entirely automatic, being efl'ected and controlled by the driving mechanism of the machine.
  • Fig. 2 I show a modified construction in which the piston 4 is moved by hydraulic or pneumatic power supplied from a valve-chamber 16 and controlled-by a valve 17.
  • I also show a further modification in that the displacement-chamber B is not within the piston 4, but is at the side of the cylinder 5 and is connected therewith by a port 18. It has a movable head 13, backed. by a spring 14. The operation is the same as described with reference to Fig. l.
  • the head 13 yields rearwardly during the advance of the piston 4: after the tool has engaged the work and in its forward motion is stopped by the wall of the cylinder 5.
  • Fig. 4 the construction is the same as in Fig. 3, except that the displacement-chamber B is formed within the cylinder 5 around the cylinder 6 and the yielding head 13 is an annular head fitted around the cylinder 6 and backed by a spring 1 1. Its rearward motion is limited by a stop 15.
  • I claim 1 In combination with a working plunger, a fluid-intensifier having an intensifying-piston, a second piston of larger area moving with the intensifying-piston for effecting automatically an initial adjusting stroke of the working plunger, and a yielding displacement-chamber adapted to permit displacement of the fluid by the larger piston after the working plunger has reached the end of its adjusting stroke; substantially as described.
  • a fluid-intensifier having an intensifying-piston, a second piston of larger area connected to and moving with the intensifying-piston for effecting automatically an initial adjusting stroke of the working plunger, and a yielding displacement-chamber adapted to permit displacement of the fluid by the larger piston after the working plunger has reached the end of its adjusting stroke; substantially as described.
  • a fluid-intensifier having an intensifying-piston, a second piston of larger area moving with the intensifying-piston for effecting automatically an initial adjusting stroke of the working plunger, and a yielding displacement-chamber adapted to permit displacement of the fluid by the larger piston after the working plunger has reached the end of its adjusting stroke, said displacement-chamber having a movable head backed by yielding pressure greater than the pressure required for the initial adjusting stroke of the plunger; substantially as described.
  • a fluid-intensifier having an intensifying-piston
  • a second piston of larger area moving with the intensifying-piston for effecting automatically an initial adjusting stroke of the I'IO Working plunger, a yielding part backed by the fluidthereafter displaced; substantially as yielding pressure greater than the pressure described. o required for the initial adjusting stroke of In testimony whereof I have hereunto set the plunger and. adapted automatically to permy hand.

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  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Percussive Tools And Related Accessories (AREA)

Description

PATENTED JUNE 28, 1904..
c. B. ALBRBE. HYDRAULIC INTENSIPIBR.
APPLIOATIOK FILED JUNE 30. 1903-v 2 SHEETS-SHEET 1.
HQ MODEL.
INVENTOR WITNESSES xs PETERS ca, mo
PATENTED JUNE 28, 1904. O. B. ALBREE.
HYDRAULIC INTENSIFIER.
APPLICATION FILED mm: so. 1903.
.ZSHEETS-SHEET 2.
N0 MODEL.
IIIEILII'I Hi l" mvpu-ron UNITED STATES Patented June 28, 1904.
PATENT OFFICE.
HYDRAULIC INTENSIFIER.
SiPEGIFIGATION forming part of Letters'Patent No. 763,833, dated June 28, 1904.
Application filed Tuna 30, 1903.
To all whom it may concern.-
Be it known that I, CHESTER B. ALBREE, of Allegheny, Allegheny county, Pennsylvania, have invented a new and useful Hydraulic Intensifier, of which the following is a full, clear, and exact description, reference being had to the accompanying drawings, forming part of this specification, in which Figure 1 shows in vertical section a machine constructed in accordance with my invention. Figs. 2, 3, and 4 are similar views showing modified constructions thereof.
In the drawings I have shown my invention as applied to a hydraulic riveting-machine; but it will be understood by those skilled in the art that with like advantages it may be applied to hydraulic machines for pressing, punching, &c. Difficulty has been experienced in using such machine upon work of different thicknesses requiring different initial' adjustments of the working tool. Where the work is changed from one piece of metal to a thinner piece, the initial motion of the tool prior to its engagement with the work becomes longer, and as the initial motion is effected at relatively low pressure it follows that unless special adjusting devices be provided the high pressure will be exerted upon the tool prematurely and before it has engaged the piece to be operated upon. The adjusting devices heretofore provided to remedy this difficulty have required skill on the part of the operator, and as the machines are often used by ignorant and unskilled workmen injury is apt to result unlessthe parts are made of undue size and weight.
The purpose of my invention is to provide an automatically-acting device by which without any skill or care on the part of the workman the initial adjustment of the machine is effected automatically, no matter what may be the variation in the work to be-performed.
My invention consists in employing with the fluid-intensifying piston a second piston of larger area moving automatically therewith, by which the initial motion of the tool is effected, a yielding displacement-chamber which after the tool has reached the limit of its ad- Serial No. 163,676. (No model.)
justing stroke will automatically permit the displacement of the fluid by the larger piston. The larger piston is so arranged that it will effect the necessary initial motion of the tool to any extent desired before the intensifyingpiston begins to operate, and after the tool has reached the limit of its initial adjustment the displacement-chamber begins to act as above stated.
More generically, my invention consists in the combination, with the intensifying-piston and a piston of larger area, of a yielding part backed by yielding pressure greater than the pressure required for the initial adjusting stroke of the plunger and adapted automatically to permit advance of the intensifyingpiston after the working plunger has reached the end of its adjusting stroke. The said yielding part closes the mouth of a chamber or space capable of receiving the fluid displaced after the working plungerhas reached the end of its adjusting stroke.
The power by which the machine is operated maybe hydraulic or pneumatic power or it may be applied directly by a mechanical motor. I show the latter connection in Fig. 1, in which the power is derived from a crank 2 and pitman 3, connected with a piston 4, which operates within a cylinder 5, charged with oil or other liquid and connected by way of a cylinder 6 and passage 7 with the working cylinder 8, whose plunger 9 carries the riveting-tool 10 and may be provided with a retracting-spring 11, although this spring may be dispensed with, as shown in Fig. 2, and the piston 9 retracted by suction, as explained below.
12 is an intensifying-piston of smaller cross sectional area than the piston 4, with which it is connected and with which it moves. It is adapted to enter and move within the cylinder 6. The piston 4 is hollow, and its interior B constitutes the displacement-chamber.
\ At its inner end it has a movable hcad13, which is fitted around the piston 12 and is backed by spring 14:. Its forward motion is limited by a stop 15 at the end of the chamber B.
In the operation of the device the metal to be riveted or otherwise worked is placed between the tool 10 and its companion tool 10, and the crank 2 is then set in motion. This projects the piston 45, which displaces the liquid from the cylinder 5, through the cylinder 6 and passage 7, and projects the plunger 9 until the tool 10 comes into contact with the work, which stops the forward advance of the plunger. During the further motion of the piston l the liquid displaced thereby will move back the yielding head 13 against the spring 14 within the displacement-chamber B. When the intensifying-plunger 12 enters the cylinder 6, pressure is exerted upon the plunger 9 and tool 10 and the work of riveting or punching is performed. When the piston 1 is retracted, the head 13 will be advanced by the spring 14, and as the piston 12 is drawn out of the cylinder 6 the suction created by said piston and during the latter part of the stroke by the piston 4 will retract the plunger 9 to its initial position even if the spring 11 is not employed. The spring 14 should be strong enough to prevent the head 13 from yielding until it encounters the resistance occasioned by the engagement of the tool 10 with the work. This spring should therefore be stronger than the spring 11. It may be replaced by connecting the chamber back of the head 13 with a source of compressed air. It will thus be seen that the displacement-chamber B, in combination with the piston 4, provides for the initial adjustment of the tool and brings it into contact with the work under the relatively low pressure exerted by the piston 1, no matter what may be the thickness of the piece to be operated upon, and that the intensifying-piston at the beginning of its working stroke finds the tool in contact with the work, so that there is no idle motion under the high pressure developed by the intensifying-piston. The action is entirely automatic, being efl'ected and controlled by the driving mechanism of the machine.
In Fig. 2 I show a modified construction in which the piston 4 is moved by hydraulic or pneumatic power supplied from a valve-chamber 16 and controlled-by a valve 17. I also show a further modification in that the displacement-chamber B is not within the piston 4, but is at the side of the cylinder 5 and is connected therewith by a port 18. It has a movable head 13, backed. by a spring 14. The operation is the same as described with reference to Fig. l. The head 13 yields rearwardly during the advance of the piston 4: after the tool has engaged the work and in its forward motion is stopped by the wall of the cylinder 5.
i In the modification shown in Fig. 3 the construction is the same as that of Fig. 2, except that the displacement-chamber B is within the hollow piston 4, as in Fig. 1.
In Fig. 4 the construction is the same as in Fig. 3, except that the displacement-chamber B is formed within the cylinder 5 around the cylinder 6 and the yielding head 13 is an annular head fitted around the cylinder 6 and backed by a spring 1 1. Its rearward motion is limited by a stop 15.
Other modifications of my invention will suggest themselves to those skilled in the art. Its advantages consist in its automatic adjustment, effected simply by application of motive power controlled by a single valve. The compact nature of the mechanism renders it peculiarly suitable for portable machines. The great length of the low-pressure adj ustmentstroke, which is rendered possible by simple proportioning of the diameters of the pistons, permits a large clearance of the tool, which is an advantage in punching or riveting angles, &c., and its construction enables it to be applied easily with any kind of motive power, Whether mechanical, hydraulic, or pneumatic.
I claim 1. In combination with a working plunger, a fluid-intensifier having an intensifying-piston, a second piston of larger area moving with the intensifying-piston for effecting automatically an initial adjusting stroke of the working plunger, and a yielding displacement-chamber adapted to permit displacement of the fluid by the larger piston after the working plunger has reached the end of its adjusting stroke; substantially as described.
2. In combination with a working plunger, a fluid-intensifier having an intensifying-piston, a second piston of larger area connected to and moving with the intensifying-piston for effecting automatically an initial adjusting stroke of the working plunger, and a yielding displacement-chamber adapted to permit displacement of the fluid by the larger piston after the working plunger has reached the end of its adjusting stroke; substantially as described.
3. In combination with a working plunger, a fluid-intensifier having an intensifying-piston, a second piston of larger area moving with the intensifying-piston for effecting automatically an initial adjusting stroke of the working plunger, and a yielding displacement-chamber adapted to permit displacement of the fluid by the larger piston after the working plunger has reached the end of its adjusting stroke, said displacement-chamber having a movable head backed by yielding pressure greater than the pressure required for the initial adjusting stroke of the plunger; substantially as described.
a. In combination with a working plunger, a fluid-intensifier having an intensifying-piston, a second piston of larger area moving with the intensifying-piston for effecting automatically an initial adjusting stroke of the I'IO Working plunger, a yielding part backed by the fluidthereafter displaced; substantially as yielding pressure greater than the pressure described. o required for the initial adjusting stroke of In testimony whereof I have hereunto set the plunger and. adapted automatically to permy hand.
mit advance of the intensifying-piston after CHESTER B. ALBREE. the Working plunger has reached the end of Witnesses:
its adjusting stroke, said yielding part clos- THOMAS W. BAKEWELL,
ing the mouth of a space capable of receiving H. M. CoRWIN.
US16367503A 1903-06-30 1903-06-30 Hydraulic intensifier. Expired - Lifetime US763833A (en)

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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2590430A (en) * 1951-02-16 1952-03-25 John T Risse Hydraulic master cylinder
US2597953A (en) * 1945-10-23 1952-05-27 Rozanski Tony Hydraulic pressure delivery device
US2637977A (en) * 1947-10-14 1953-05-12 Alfred B Seppmann Valve controlled brake fluid accumulator for master cylinders
US2672009A (en) * 1949-05-25 1954-03-16 Hense Heinrich Master cylinder for hydraulic brakes and other hydraulic installations
US2760575A (en) * 1950-09-19 1956-08-28 Wales Strippit Corp Fluid spring perforating unit
US2986881A (en) * 1958-04-23 1961-06-06 United Aircraft Corp Fuel accumulator for aircraft jet engine starter
US3240019A (en) * 1962-12-31 1966-03-15 Clark Equipment Co Power braking system
US3787147A (en) * 1972-12-26 1974-01-22 Owatonna Tool Co Two-stage air-hydraulic booster
US5107681A (en) * 1990-08-10 1992-04-28 Savair Inc. Oleopneumatic intensifier cylinder
US5421359A (en) * 1992-01-13 1995-06-06 Caterpillar Inc. Engine valve seating velocity hydraulic snubber
US5526644A (en) * 1995-06-07 1996-06-18 Brieschke; Todd M. Oil intensifier cylinder

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2597953A (en) * 1945-10-23 1952-05-27 Rozanski Tony Hydraulic pressure delivery device
US2637977A (en) * 1947-10-14 1953-05-12 Alfred B Seppmann Valve controlled brake fluid accumulator for master cylinders
US2672009A (en) * 1949-05-25 1954-03-16 Hense Heinrich Master cylinder for hydraulic brakes and other hydraulic installations
US2760575A (en) * 1950-09-19 1956-08-28 Wales Strippit Corp Fluid spring perforating unit
US2590430A (en) * 1951-02-16 1952-03-25 John T Risse Hydraulic master cylinder
US2986881A (en) * 1958-04-23 1961-06-06 United Aircraft Corp Fuel accumulator for aircraft jet engine starter
US3240019A (en) * 1962-12-31 1966-03-15 Clark Equipment Co Power braking system
US3787147A (en) * 1972-12-26 1974-01-22 Owatonna Tool Co Two-stage air-hydraulic booster
US5107681A (en) * 1990-08-10 1992-04-28 Savair Inc. Oleopneumatic intensifier cylinder
US5421359A (en) * 1992-01-13 1995-06-06 Caterpillar Inc. Engine valve seating velocity hydraulic snubber
US5526644A (en) * 1995-06-07 1996-06-18 Brieschke; Todd M. Oil intensifier cylinder

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