US925203A - Air compressor or blower. - Google Patents

Air compressor or blower. Download PDF

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Publication number
US925203A
US925203A US43643508A US1908436435A US925203A US 925203 A US925203 A US 925203A US 43643508 A US43643508 A US 43643508A US 1908436435 A US1908436435 A US 1908436435A US 925203 A US925203 A US 925203A
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Prior art keywords
pistons
air
blower
flaps
chambers
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US43643508A
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George W Leiman
William H Leiman
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04CROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
    • F04C9/00Oscillating-piston machines or pumps
    • F04C9/002Oscillating-piston machines or pumps the piston oscillating around a fixed axis

Definitions

  • Grenen lV. LEIMAN and llliLLiAii H. laminar' citizens of the United States, and residents of Newark, in the county of Essex and State of New Jersey, have invented a new and use-ful Air l ⁇ , ⁇ oinpressor or Blower, of which the following a specification.
  • This invention relates to an air compressor or blower and more particularly to an air compressor or blower' in weich the air is drawn into or expelled from the compressor or blower by vibrating the flaps or pistons, the object being to provide improved means for operating the vibrating flaps or pistons and for operating valves to open and close the admission of air to and its escape from the air chambers.
  • Figure 1 is a vertical section of the air compressor or blower .in the plane of the line 15a-rk of Fig. 2
  • Fig. 2 is a section of the same in the plane of the line B-B of Fig. 1
  • Fig. 3 is a section taken in the plane ofthe line C-C of Fig. 2
  • Fig. et is a view in detail of the crank and links for operating the several flaps or pistons
  • Fig. 5 is a similar view in the plane of the line Del) of Fig. 4
  • Fig. 6 is a similar view in the plane of the line E-E of Fig. 5.
  • the frame or casing of the compressor or blower is made up of an open ended central portion 1 preferably of rectangular form, the ends of the central portion 1 being closed, the one by a covering plate 2 bolt-ed to the section 1 and the opposite end by a ported plate 8 dished to form a valve chamber Je and in turn covered by a plate bolted through the ported plate 3 to the central section 1 by bolts 6.
  • the central section is divided into several chambers, in the present instance four chambers, one at each curve of the cent-ral section 1, and denoted, respectively, by 7, 8, 9 and 10. These chambers are separated by curved faced internally projecting lips 11, the curved face of each lip being toward the interior of the chamber.
  • the pistons or [laps 12, one for each chamber, and quite similar in their construction, are hinged in sockets 13 at the bases of the lips 11 so as to swing inwardly into close proximity to the bottom of the chamber formed by the wall of the central section 1 Specification of Letters 13a/Gent.
  • flaps or pistons arc operated by links, one for each, mounted loosely on the crank pin 11i on the crank 15 of the shaft 1G, the said crank or double crank, in the present instance being located in the interior of the central section 1 of the casing and the shaft itself extending through suitable packing boxes through the end closures 2, and 5.
  • rlhe links for operating the diagonally opposite pistons or liaps in the chambers 7 and 9 are denoted by 17, 1S, and the links for operating the pistons or flaps in the diagonally opposite chambers S and are denoted by 19, 20.
  • rl"he links are provided with partial hubs 21, the interior faces of which lit the exterior of the crank pin 1st and the exterior faces of which are made to conform to the interior of retaining rings 22, and 2e, (see Fig. et) the said rings being formed in half sections and united by screws 25, 26, to permit the ready assembling of the links within the casing section 1 on the crank pin.
  • Each pair of links 17, 18, and 19, 2l has the outerI ends of the members of the pairs oil-set toward the plane of the outer ends of the opposite pair so that while they occupy consecutive positions on the crank pin, their outer ends are attached to the backs rof the flaps or pistons at points approximating the middle points between the opposite edges of the flaps or pistons.
  • crank pin 14 will consecutively force the iiaps or pistons toward the bot-toms of the chambers expelling the air therethrough and will successively open the said pistons away from the bottoms of the chambers.
  • the ported end plate 3 is provided with a pair of ports for each chamber, one port 30 passing from the valve chamber l into the air chamber within the casing 1 and beneath the flap or piston and another port 31 of the pair passing from the valve chamber l into the interior of the casing 1 back of or within the space partially surrounded by the several flaps or pistons 12.
  • the several pairs of ports in the ported plate 3 are covered by llO swinging' valves, one for each pair, and quite similar in construction.
  • the valve for the ports 30 and 3l consists of an elongated flat plate having a cove portion 32 for bridging the two port-s 30 and 3l, as clearly shown in Fig. 2, and a stem portion 33 pivoted to the ported plate 3 at 34.
  • This valve also has an extension 35 carrying an anti-friction roller 36 which travels in a cam groove 37 in a cam 3S fixed to rotate with the shaft 1G within the valve chamber 4;.
  • each of the other pairs of ports for the respective air chambers is provided with its swinging valve operated by the same cam 3S and constructed and mounted in the same manner as that hereinbefore described, for the ports 3() and 3l.
  • the chamber l is provided with an outlet pipe 39 leading therefrom and the space partially surrounded by the vibrating flaps or pistons 13 is provided with an inlet pipe Ll0 for admitting air freely through t-heend cover 2 of the casing into the interior space within the casing.
  • the central portion l of the casing may conveniently be provided with a pedestal al for fastening it in an upright position on any suitable support and the interior of the casing l may be provided with a port 42 for circulating a cooling medium in any well known or approved manner.
  • the cam 38 is so timed with respect to the several flaps that they will occupy the position shown in F ig. 2, while the pistons or flaps are being opened away from the bottoms of the chambers, thereby permitting air to freely pass from the interior space, partially surrounded by the Ha ps to the interior of the chamber, beneath the flap, but when the flap or piston is being forced toward the bottom of t-he chamberto compress the air therein, the cam 3S will have rocked the val-ve into the position shown at the bottom of F ig.
  • the structure is a simple one, to a very marked extent free from noise in operation, and wear and tear is but slight.
  • l hat we claim is l.
  • a rotary shaft provided with means for operating the vibrating flaps or pistons for drawing air into and expelling it from air chambers, a valve chamber provided with ports leading to the several air chambers and to the space partially surrounded by the vibrating flaps or pistons, valves for opening' and closing said ports and means connected with the rotary shaft for operating said valves.

Description

G. W. & W. H. LEIMAN.
AIR COMPRESSOR 0R BLOWER. APPLICATION FILED .TUNE 3, 1908.
925,203. Patellted Junevl, 1909.
m: ...u-Rm PETERS cu., wymcnm. D. c
NETE@ STATE Pi-iENlll EFlC,
GEORGE W. LElMAN AND WlLLlAili H. LEIMAN, OF NEWARK, NEW JERSEY.
AER COMPRESSOR OR BLOWER.
fo all 'whom fit may concern:
le it known that we, Grenen lV. LEIMAN and llliLLiAii H. laminar', citizens of the United States, and residents of Newark, in the county of Essex and State of New Jersey, have invented a new and use-ful Air l\,`oinpressor or Blower, of which the following a specification.
This invention relates to an air compressor or blower and more particularly to an air compressor or blower' in weich the air is drawn into or expelled from the compressor or blower by vibrating the flaps or pistons, the object being to provide improved means for operating the vibrating flaps or pistons and for operating valves to open and close the admission of air to and its escape from the air chambers.
ln the accompanying drawings, Figure 1 is a vertical section of the air compressor or blower .in the plane of the line 15a-rk of Fig. 2, Fig. 2 is a section of the same in the plane of the line B-B of Fig. 1, Fig. 3 is a section taken in the plane ofthe line C-C of Fig. 2, Fig. et is a view in detail of the crank and links for operating the several flaps or pistons, Fig. 5 is a similar view in the plane of the line Del) of Fig. 4, and Fig. 6 is a similar view in the plane of the line E-E of Fig. 5.
attention is called to applicants copending application Serial No. 380,796.
The frame or casing of the compressor or blower is made up of an open ended central portion 1 preferably of rectangular form, the ends of the central portion 1 being closed, the one by a covering plate 2 bolt-ed to the section 1 and the opposite end by a ported plate 8 dished to form a valve chamber Je and in turn covered by a plate bolted through the ported plate 3 to the central section 1 by bolts 6.
The central section is divided into several chambers, in the present instance four chambers, one at each curve of the cent-ral section 1, and denoted, respectively, by 7, 8, 9 and 10. These chambers are separated by curved faced internally projecting lips 11, the curved face of each lip being toward the interior of the chamber.
The pistons or [laps 12, one for each chamber, and quite similar in their construction, are hinged in sockets 13 at the bases of the lips 11 so as to swing inwardly into close proximity to the bottom of the chamber formed by the wall of the central section 1 Specification of Letters 13a/Gent.
Application led June 3, 1908.
Patented June 15, 1909.
Serial No. 436,435.
and outwardly with their free ends packed and in air-tight engagement with the curved faces of the lips 1l. These flaps or pistons arc operated by links, one for each, mounted loosely on the crank pin 11i on the crank 15 of the shaft 1G, the said crank or double crank, in the present instance being located in the interior of the central section 1 of the casing and the shaft itself extending through suitable packing boxes through the end closures 2, and 5.
rlhe links for operating the diagonally opposite pistons or liaps in the chambers 7 and 9 are denoted by 17, 1S, and the links for operating the pistons or flaps in the diagonally opposite chambers S and are denoted by 19, 20. rl"he links are provided with partial hubs 21, the interior faces of which lit the exterior of the crank pin 1st and the exterior faces of which are made to conform to the interior of retaining rings 22, and 2e, (see Fig. et) the said rings being formed in half sections and united by screws 25, 26, to permit the ready assembling of the links within the casing section 1 on the crank pin.
Each pair of links 17, 18, and 19, 2l), has the outerI ends of the members of the pairs oil-set toward the plane of the outer ends of the opposite pair so that while they occupy consecutive positions on the crank pin, their outer ends are attached to the backs rof the flaps or pistons at points approximating the middle points between the opposite edges of the flaps or pistons.
The engagementof the links with the backs of the pistons is effected by means of pins 27 which pass through the holes in the outer' ends of the links and through lugs 28, 29, formed on the backs of the pistons.
As the shaft 16 rotates, the crank pin 14 will consecutively force the iiaps or pistons toward the bot-toms of the chambers expelling the air therethrough and will successively open the said pistons away from the bottoms of the chambers.
lThe ported end plate 3 is provided with a pair of ports for each chamber, one port 30 passing from the valve chamber l into the air chamber within the casing 1 and beneath the flap or piston and another port 31 of the pair passing from the valve chamber l into the interior of the casing 1 back of or within the space partially surrounded by the several flaps or pistons 12. The several pairs of ports in the ported plate 3 are covered by llO swinging' valves, one for each pair, and quite similar in construction. The valve for the ports 30 and 3l consists of an elongated flat plate having a cove portion 32 for bridging the two port-s 30 and 3l, as clearly shown in Fig. 2, and a stem portion 33 pivoted to the ported plate 3 at 34. This valve also has an extension 35 carrying an anti-friction roller 36 which travels in a cam groove 37 in a cam 3S fixed to rotate with the shaft 1G within the valve chamber 4;. In like inanner, each of the other pairs of ports for the respective air chambers is provided with its swinging valve operated by the same cam 3S and constructed and mounted in the same manner as that hereinbefore described, for the ports 3() and 3l.
The chamber lis provided with an outlet pipe 39 leading therefrom and the space partially surrounded by the vibrating flaps or pistons 13 is provided with an inlet pipe Ll0 for admitting air freely through t-heend cover 2 of the casing into the interior space within the casing.
The central portion l of the casing may conveniently be provided with a pedestal al for fastening it in an upright position on any suitable support and the interior of the casing l may be provided with a port 42 for circulating a cooling medium in any well known or approved manner.
In operation, the cam 38 is so timed with respect to the several flaps that they will occupy the position shown in F ig. 2, while the pistons or flaps are being opened away from the bottoms of the chambers, thereby permitting air to freely pass from the interior space, partially surrounded by the Ha ps to the interior of the chamber, beneath the flap, but when the flap or piston is being forced toward the bottom of t-he chamberto compress the air therein, the cam 3S will have rocked the val-ve into the position shown at the bottom of F ig. 3, where it will open the portl 30 to the interior of the chamber if and close the interior of the chamber to the port 3l thereby permitting` the air to escape irst from the compression chamber within the casing l into the valve chamber l and thence through the exit pipe 39 to the point where it is to be stored or used. When four of these compression chambers are in operation at the same time, two of them will be discharging air into the chamber t While anothertwo will be refilling from the air within the space partially surrounded by the pistons or flaps.
The structure is a simple one, to a very marked extent free from noise in operation, and wear and tear is but slight.
l hat we claim is l. In an air compressor or blower, in which vibrating liaps or pistons are employed, a rotary shaft provided with means for operating the vibrating flaps or pistons for drawing air into and expelling it from air chambers, a valve chamber provided with ports leading to the several air chambers and to the space partially surrounded by the vibrating flaps or pistons, valves for opening' and closing said ports and means connected with the rotary shaft for operating said valves.
2. In an air compressor or blower' in which vibrating flaps or pistons are employed within a casing provided with air chambers, a rotary shaft provided with mea-ns for operating the vibrating flaps or pistons, a valve chamber provided with ports leading to the air chambers and to the space partially surrounded by the vibrating flaps or pistons, swinging valves for opening and closing said ports and a cam carried by the rotary shaft within the valve chamber for swinging the said valves at the proper times.
In testimony, that we claim the foregoing as our invention, we have signed our names in presence of two Witnesses,.this second day of June 1908.
GEORGE WV. LEIMAN. VILLIAM H. LEIMAN. lVitnesses F. GEORGE BARRY, HENRY THIEME.
US43643508A 1908-06-03 1908-06-03 Air compressor or blower. Expired - Lifetime US925203A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4290341A (en) * 1979-07-02 1981-09-22 Scheibengraber Karl J Rotary engine
US4537162A (en) * 1981-12-21 1985-08-27 Kienle Gerhard K Internal combustion engine having a rotating piston assembly
US20070204831A1 (en) * 2006-03-03 2007-09-06 Karnes Dyno-Rev Engine, Inc. Internal combustion engine
US20080072694A1 (en) * 2006-09-22 2008-03-27 Chomyszak Stephen M Oscillating vane machine with improved vane and valve actuation
US20090081061A1 (en) * 2007-09-21 2009-03-26 Chomyszak Stephen M Peripherally pivoted oscillating vane machine

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4290341A (en) * 1979-07-02 1981-09-22 Scheibengraber Karl J Rotary engine
US4537162A (en) * 1981-12-21 1985-08-27 Kienle Gerhard K Internal combustion engine having a rotating piston assembly
US20070204831A1 (en) * 2006-03-03 2007-09-06 Karnes Dyno-Rev Engine, Inc. Internal combustion engine
US7500462B2 (en) 2006-03-03 2009-03-10 Karnes Dyno-Rev Engine, Inc. Internal combustion engine
US20080072694A1 (en) * 2006-09-22 2008-03-27 Chomyszak Stephen M Oscillating vane machine with improved vane and valve actuation
US20090081061A1 (en) * 2007-09-21 2009-03-26 Chomyszak Stephen M Peripherally pivoted oscillating vane machine

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