US3310230A - Hydraulic gas seal system for pistontype gas compressor - Google Patents
Hydraulic gas seal system for pistontype gas compressor Download PDFInfo
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- US3310230A US3310230A US489361A US48936165A US3310230A US 3310230 A US3310230 A US 3310230A US 489361 A US489361 A US 489361A US 48936165 A US48936165 A US 48936165A US 3310230 A US3310230 A US 3310230A
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- piston rod
- section
- compressor
- cavity
- crankcase
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04B—POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
- F04B39/00—Component parts, details, or accessories, of pumps or pumping systems specially adapted for elastic fluids, not otherwise provided for in, or of interest apart from, groups F04B25/00 - F04B37/00
- F04B39/04—Measures to avoid lubricant contaminating the pumped fluid
- F04B39/041—Measures to avoid lubricant contaminating the pumped fluid sealing for a reciprocating rod
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16J—PISTONS; CYLINDERS; SEALINGS
- F16J15/00—Sealings
- F16J15/16—Sealings between relatively-moving surfaces
- F16J15/40—Sealings between relatively-moving surfaces by means of fluid
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- Y—GENERAL 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
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S277/00—Seal for a joint or juncture
- Y10S277/927—Seal including fluid pressure differential feature
Definitions
- a problem associated with compressors working with special gases is concerned with preventing the gases from leaking around the reciprocating piston rod from the compressor head section of the apparatus into the crankcase.
- Some of these special gases are of a lethal nature, accordingly it is essential that they be prevented from leaking into the crankcase and escaping to atmosphere through the usual crankcase breather vent.
- Others are likely to contaminate the lubricating oil in the crankcase; and others are of a precious or costly nature so that it is a matter of economy to prevent leakage of such gases.
- a general object of this invention is to provide a prac- 'tical solution to these problems.
- a more specific object is to provide a hydraulic gas seal system which functions in an eflicient and practical manner to seal against leakage of gas from the compressor section of a piston-type gas compressor to the crankcase section and also functions to dissipate undesirable heat developing in the piston rod.
- FIG. 1 is a schematic showing of a piston-type gas compressor apparatus embodying the invention
- FIG. 2 is a detail in cross section of the false head mounted in the compressor apparatus.
- FIG. 3 is a fragmentary enlarged detail of the packing seal arrangement at each end of the hydraulic sealing cavity of the false head.
- FIG. 1 The apparatus as schematically shown in FIG. 1 includes a compressor head section connected in tandem to a crankcase section 11.
- the crankcase supports a crankshaft 12 which acts through a crankarm 13 and a crosshead 14 to reciprocate a piston rod 15.
- the latter extends axially through a false head 16, located near one end of the crankcase, and serves to reciprocate a piston 17 in a compression chamber 18 of the compressor section.
- the crankcase provides at its bottom an oil sump 19 which serves as a source of cooling and lubricating oil for the crankshaft and other components of the apparatus.
- a breather tube 21 serves to vent the of undesirable fumes.
- the compressor apparatus is of a type which may be used for compressing special gases; and that it is accordingly necessary to prevent leakage of such gases from the compressor section into the crankcase section.
- a hydraulic gas seal system as will be shortly described herein, is provided for this purpose.
- This system schematically included in FIG. 1 represents a desired improvement and technical advance in this art. It provides a positive hydraulic seal which prevents leakage of gases from the compressor section 10 around the piston rod into the crankcase section 11; and simultaneously with such action functions to cool the piston rod. As a result of this hydraulic gas seal system, contamination of the sump oil, leakage of lethal gases into crankcase See the crankcase and their escape through the crankcase vent 21, and undesirable heating of the piston rod are avoided.
- the hydraulic gas seal system includes the false head unit 16.
- the false head is mounted to an annular internal flange 22 at one end of the crankcase section 11 to define with the flange partition which separates and seals gastight the interior of the crankcase section from the compressor section.
- the false head includes an annular disc body member 23 having a central hub portion 24 extending axially into an opening 25 defined by the inner diameter wall of the crankcase flange 22.
- a short axial extension of the body member provides an annular shoulder 26 which is seated in the opening 25 in abutment with the surrounding inner diameter Wall of the flange.
- An outer marginal portion 27 around the body member overlies the flange 22, and is bolted gastight to it by means of a ring of bolts 28.
- the body member is provided with an axial hole of greater diameter than the piston rod so as to provide a desired clearance 29 about the piston rod.
- This clearance is sealed over at opposite ends by sealing means, respectively designated generally by numerals 31 and 32, whereby the clearance 29 serves as a hydraulic chamber or cavity about the piston rod for the reception of oil from the crankcase sump 19, or from some other suitable source.
- a pipe line 34 (FIGS. 1, 2) is connected at one end to the sump, and at the other end is connected to an inlet passage 35 passing through the body member 23 to the cavity 29.
- a variable pressure pump 36 in this pipe line serves to draw sump oil through a filter 37, and to force the oil through the inlet passage to fill the cavity 29.
- the oil circulates in the cavity about the piston rod and returns to the sump through a hydraulic return passage 38 extending from the cavity through the body member, and a return pipe line 39.
- a manual hydraulic pressure regulating valve 41 in the return line serves to control the rate of return oil flow from the cavity so as to maintain the cavity constantly filled with oil and at a desired pressure. The valve is controlled by the operator so as to maintain the oil pressure in the cavity at a greater value than the pressure of gases accumulating at the compressor side 10 of the cavity.
- the pressurized oil circulating through the cavity serves as a hydraulic seal preventing leakage of gases from the compressor section around the piston rod into the cavity, and also serves to extract heat from the reciprocating piston rod.
- a gage 42 in the return line serves to indicate the hydraulic pressure in the cavity.
- a maximum pressure relief valve 43 connected in a bypass line or branch 44 of the return line leading to the sump, prevents development of undesirable excessive hydraulic pressure in the cavity.
- the sealing means 31 and 32 serve to contain the pressurized hydraulic fluid in the cavity; and also serve to strip oil from the reciprocating piston rod.
- the sealing means 31 at the compressor end of thefalse head includes an outer packing sea-l cup 45 having an axial hole 46, the wall of which surrounds the piston rod with a slight clearance. It further has a flat annular inner end wall 47 which lies flush against a flat end wall 48 of the body member 23 and is held fast to the latter *by means of a ring of bolts 49.
- An O-ring seal 51 is provided between the opposed wall surfaces 47, 48. Seated within the outer cup with a peripheral clearance 52 is an inner packing seal cup 54) through which the piston rod passes with a slight clearance.
- each ring Seated within this inner cup in surrounding relation to the piston rod is a group of packing seal rings 54 (FIGS. 2, 3) arranged one forwardly of the other.
- the packing rings are formed of soft material having some resilience. Rubber, or plastic material such as that known by the trade name neoprene, and synthetic soft resilient rubber compounds suitable for this purpose.
- the outer periphery of each ring is defined by a forwardly extending lip 55 (FIG. 3); and the inner periphery of each ring is defined by a similar lip 56. The lips diverge from one another.
- the rings are seated in the inner cup with the inner lip in wiping contact with the piston rod, and with the outer lip in contact with the surrounding wall of the cup.
- Each ring is also formed with an annular rib 57 centrally of its forward face.
- the rib of the rear ring fits into a complementary groove 58 formed in an arcuate back of the next preceding ring, and the rib of the leading ring abuts centrally of a backup disc plate 59.
- a rounded back 61 of the rear ring seats against the bottom of the inner cup.
- the rings are of such a nature that upon being squeezed or compressed axially, the lip portions tend to expand radially outward.
- the packing rings are squeezed between the bottom of the inner cup 50 and the back-up plate 59 by means of the outer cup 45 which presses upon the inner cup whereby the inner lips 56 press firmly upon the piston rod.
- the packing rings are arranged so that the inner lips are opposite to and face toward the corresponding end of the hydraulic cavity 29. In this arrangement of the packing rings and the direction of the lips, the rings serve to scoop or strip and wipe oil from the piston rod as the latter reciprocates.
- a soft resilient O-ring seal 62 is seated in an annular groove 63 defined between the rib 57 and the inner .lip 56 of the leading packing ring.
- This O-ring is squeezed between the inner lip 56 and the back-up plate 59 whereby it functions to press and hold the adjacent inner lip 55 tightly against the surface of the piston rod.
- This tight relation of the inner lip to the piston rod further aids in stripping oil from the latter.
- This O-ring is of still further advantage in that it serves to hold the adjacent lip down against the piston rod and thereby prevents the opposing pressure of gas in the compressor section from lifting the lip upwardly away from the piston rod.
- the sealing means 32 sealing over the opposite end of the hydraulic cavity 29 comprises a group of packing rings 64 similar to those described, but here three in number arranged one forwardly of the other. These rings are seated in a packing cup 65 in surrounding relation to the piston rod.
- the piston rod extends axially and with a slight clearance through this packing cup.
- the packing cup is disposed with a surrounding clearance 66 in an annular recess 67 formed in the hub of the body member 23.
- a short internal extension 68 of the body member extends into the recess 67 and abuts the rib 63 of the leading packing ring 71.
- An annular retaining plate 72 bolted fast to the end face of the body member, closes over the recess 66 and presses the packing cup 65 inwardly to compress the packing rings between the bottom of the cup and the extension 68.
- the lips 55, 56 thereof are opposite to and face toward the hydraulic cavity 29.
- the outer lips 55 are in pressed contact with the surrounding wall of the packing cup 65 and the inner lips 56 are in pressed contact with the piston rod.
- the packing rings 64- serve to seal the corresponding end of the cavity 29; and the forwardly extending inner lips function to scoop or strip and wipe oil from the piston rod as the latter reciprocates.
- the piston rod otherwise reciprocates clear of the false head thus subjecting the piston rod to a minimum of frictional contact with the false head.
- the pump 36 is associated in a suitable electrical circuit generally indicated at 74 in FIG. 1 in such manner that the compressor apparatus will not operate without the pump simultaneously operating. This is desired so that the hydraulic cavity 29 can be immediately supplied with sealing and cooling hydraulic fluid to avoid possible damage by heat to the packing seals.
- the circuit is also such that if the compressor for some reason is stopped, the pump will nevertheless continue to operate. This precaution is desired to continually maintain the hydraulic seal in the cavity 29 so as to prevent possible bleeding of gas from the compressor section into the crankcase.
- a suitable control switch mechanism 75 controls the pump motor 76 and the crankshaft motor 77.
- crankcase sump 19 is used here for supplying the circulating hydraulic fluid to cool the piston rod and effect the hydraulic seal.
- a suitable reservoir or source provided independently of the crankcase sump may be utilized for this purpose, and the hydraulic fluid therein may be pre-cooled to the extent desired.
- a piston-type gas compressor apparatus comprising a crank case section, a compressor head section, a piston reciprocable in the compressor head section having a piston rod extending into the crankcase section, a crank supported in the crankcase section drivingly connected to the piston rod, and a hydraulic gas seal system for sealing the compressor head section against leakage of gas around the piston rod into the crankcase section, the hydraulic gas seal system comprising: a false head mounted transversely of the compressor apparatus partitioning the compressor head section from the crankcase section, a cavity axially of the false head surrounding the piston rod, first sealing means about the piston rod sealing one end of the cavity from the compressor head section, other sealing means about the piston rod sealing an opposite end of the cavity from the crankcase section, a hydraulic sump within the crankcase adjacent the corresponding end of the false head, means for circulating hydraulic fluid from the sump through the cavity around the piston rod and back to the sump, and control means for maintaining the fluid circulating through the cavity at a pressure greater than that of gas in the compressor head section, wherein the first and other sealing means are
- a piston-type gas compressor apparatus comprising a crankcase section, a compressor head section, a piston reciprocable in the compressor head section having a piston rod extending into the crankcase section, a crank supported in the crankcase section drivingly connected to the piston rod, and a hydraulic gas seal system for sealing the compressor head section against leakage of gas around the piston rod into the crankcase section, the hydraulic gas seal system comprising: a false head mounted transversely of the compressor apparatus partitioning the compressor head section from the crankcase section, a cavity axially of the false head surrounding the piston rod, first sealing means about the piston rod sealing one end of the cavity from the compressor head section, other sealing means about the piston rod sealing an opposite end of the cavity from the crankcase section, a hydraulic sump, means for circulating hydraulic fluid from the sump through the cavity around the piston rod and back to the sump, and control means for maintaining the fluid circulating through the cavity at a pressure greater than that of gas in the compressor head section; wherein the false head includes a main annular body member axially of which the cavity is provided
- a piston-type gas compressor apparatus comprising a crank case section, a compressor head section, a piston reciprocable in the compressor head section having a piston rod extending into the crankcase section, a crank supported in the crankcase section drivingly connected to the piston rod, and a hydraulic gas seal system for sealing the compressor head section against leakage of gas around the piston rod into the crankcase section, the hydraulic gas seal system comprising: a false head mounted transversely of the compressor apparatus partitioning the compressor head section from the crankcase section, a cavity axially of the false head surrounding the piston rod, first sealing means about the piston rod sealing one end of the cavity from the compressor head section, other sealing means about the piston rod sealing an opposite end of the cavity from the crankcase section, a hydraulic sump, means for circulating hydraulic fluid from the sump through the cavity around the piston rod and back to the sump, and control means for maintaining the fluid circulating through the cavity at a pressure greater than that of gas in the compressor head section; wherein each of the first and the other sealing means includes at least one packing ring of soft resilient material
- a piston-type gas compressor apparatus comprising a crankcase section, a compressor head section, a piston reciprocable in the compressor head section having a piston rod extending into the crankcase section, a crank supported in the crankcase section drivingly connected to the piston rod, and a hydraulic gas seal system for sealing the compressor head section against leakage of gas around the piston rod into the crankcase section, the hydraulic gas seal system comprising: a false head mounted transversely of the compressor apparatus partitioning the compressor head section from the crankcase section, a cavity axially of the false head surrounding the piston rod, first sealing means about the piston rod sealing one end of the cavity from the compressor head section, other sealing means about the piston rod sealing an opposite end of the cavity from the crankcase section, a hydraulic sump, means for circulating hydrau lic fluid from the sump through the cavity around the piston rod and back to the sump, and control means for maintaining the fluid circulating through the cavity at a pressure greater than that of gas in the compressor head section; wherein control means is provided for simultaneously eflfecting operation of the compressor
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Description
March 21, 1967 R. c. WIRTH 3,310,230
HYDRAULIC GAS SEAL SYSTEM FOR PISTONTYPE GAS COMPRESSOR Filed Sept. 22, 1965 2 Sheets-Sheet 1 BY I 9 J Ex Af/UFNC' Y March 21, 1967 R. c. WIRTH 3,310,230
HYDRAULIC GAS SEAL SYSTEM FOR PISTON-TYPE GAS COMPRESSOR Filed Sept. 22, 1965 2 Sheets-Sheet 2 5 Maw 1 3 M E y\ mi 72 4; J; L .5/ 73 J5 27 INVENTOR.
United States Patent 3,310,230 HYDRAULIC GAS SEAL SYSTEM FOR PISTON- TYPE GAS COMPRESSOR Richard C. Wirth, Franklin, Pa., assignor to Chicago Pneumatic Tool Company, New York, N.Y., acorporation of New Jersey Filed Sept. 22, 1965, Ser. No. 489,361 '7 Claims. (Cl. 230-203) This invention relates to gas compressors of the pistontype; and it has special application to compressors working with special gases, such as refrigerants, precious or lethal gases.
A problem associated with compressors working with special gases is concerned with preventing the gases from leaking around the reciprocating piston rod from the compressor head section of the apparatus into the crankcase. Some of these special gases are of a lethal nature, accordingly it is essential that they be prevented from leaking into the crankcase and escaping to atmosphere through the usual crankcase breather vent. Others are likely to contaminate the lubricating oil in the crankcase; and others are of a precious or costly nature so that it is a matter of economy to prevent leakage of such gases.
Another problem associated with piston-type compressors is concerned with dissipating undesirable heat developing in the rapidly reciprocating piston rod.
A general object of this invention is to provide a prac- 'tical solution to these problems.
A more specific object is to provide a hydraulic gas seal system which functions in an eflicient and practical manner to seal against leakage of gas from the compressor section of a piston-type gas compressor to the crankcase section and also functions to dissipate undesirable heat developing in the piston rod.
In the accompanying drawings:
FIG. 1 is a schematic showing of a piston-type gas compressor apparatus embodying the invention;
FIG. 2 is a detail in cross section of the false head mounted in the compressor apparatus; and
FIG. 3 is a fragmentary enlarged detail of the packing seal arrangement at each end of the hydraulic sealing cavity of the false head.
In the drawings, the invention is shown as applied to a stationary gas compressor apparatus of the piston-type. The apparatus as schematically shown in FIG. 1 includes a compressor head section connected in tandem to a crankcase section 11. The crankcase supports a crankshaft 12 which acts through a crankarm 13 and a crosshead 14 to reciprocate a piston rod 15. The latter extends axially through a false head 16, located near one end of the crankcase, and serves to reciprocate a piston 17 in a compression chamber 18 of the compressor section. The crankcase provides at its bottom an oil sump 19 which serves as a source of cooling and lubricating oil for the crankshaft and other components of the apparatus. A breather tube 21 serves to vent the of undesirable fumes.
As earlier explained, the compressor apparatus is of a type which may be used for compressing special gases; and that it is accordingly necessary to prevent leakage of such gases from the compressor section into the crankcase section. A hydraulic gas seal system, as will be shortly described herein, is provided for this purpose.
This system schematically included in FIG. 1 represents a desired improvement and technical advance in this art. It provides a positive hydraulic seal which prevents leakage of gases from the compressor section 10 around the piston rod into the crankcase section 11; and simultaneously with such action functions to cool the piston rod. As a result of this hydraulic gas seal system, contamination of the sump oil, leakage of lethal gases into crankcase See the crankcase and their escape through the crankcase vent 21, and undesirable heating of the piston rod are avoided.
The hydraulic gas seal system includes the false head unit 16. The latter is mounted to an annular internal flange 22 at one end of the crankcase section 11 to define with the flange partition which separates and seals gastight the interior of the crankcase section from the compressor section. The false head, best shown in FIG. 2, includes an annular disc body member 23 having a central hub portion 24 extending axially into an opening 25 defined by the inner diameter wall of the crankcase flange 22. A short axial extension of the body member provides an annular shoulder 26 which is seated in the opening 25 in abutment with the surrounding inner diameter Wall of the flange. An outer marginal portion 27 around the body member overlies the flange 22, and is bolted gastight to it by means of a ring of bolts 28. The body member is provided with an axial hole of greater diameter than the piston rod so as to provide a desired clearance 29 about the piston rod. This clearance is sealed over at opposite ends by sealing means, respectively designated generally by numerals 31 and 32, whereby the clearance 29 serves as a hydraulic chamber or cavity about the piston rod for the reception of oil from the crankcase sump 19, or from some other suitable source. In this system, a pipe line 34 (FIGS. 1, 2) is connected at one end to the sump, and at the other end is connected to an inlet passage 35 passing through the body member 23 to the cavity 29. A variable pressure pump 36 in this pipe line serves to draw sump oil through a filter 37, and to force the oil through the inlet passage to fill the cavity 29. The oil circulates in the cavity about the piston rod and returns to the sump through a hydraulic return passage 38 extending from the cavity through the body member, and a return pipe line 39. A manual hydraulic pressure regulating valve 41 in the return line serves to control the rate of return oil flow from the cavity so as to maintain the cavity constantly filled with oil and at a desired pressure. The valve is controlled by the operator so as to maintain the oil pressure in the cavity at a greater value than the pressure of gases accumulating at the compressor side 10 of the cavity. In this manner, the pressurized oil circulating through the cavity serves as a hydraulic seal preventing leakage of gases from the compressor section around the piston rod into the cavity, and also serves to extract heat from the reciprocating piston rod. A gage 42 in the return line serves to indicate the hydraulic pressure in the cavity. A maximum pressure relief valve 43, connected in a bypass line or branch 44 of the return line leading to the sump, prevents development of undesirable excessive hydraulic pressure in the cavity.
The sealing means 31 and 32 serve to contain the pressurized hydraulic fluid in the cavity; and also serve to strip oil from the reciprocating piston rod. The sealing means 31 at the compressor end of thefalse head includes an outer packing sea-l cup 45 having an axial hole 46, the wall of which surrounds the piston rod with a slight clearance. It further has a flat annular inner end wall 47 which lies flush against a flat end wall 48 of the body member 23 and is held fast to the latter *by means of a ring of bolts 49. An O-ring seal 51 is provided between the opposed wall surfaces 47, 48. Seated within the outer cup with a peripheral clearance 52 is an inner packing seal cup 54) through which the piston rod passes with a slight clearance. Seated within this inner cup in surrounding relation to the piston rod is a group of packing seal rings 54 (FIGS. 2, 3) arranged one forwardly of the other. The packing rings are formed of soft material having some resilience. Rubber, or plastic material such as that known by the trade name neoprene, and synthetic soft resilient rubber compounds suitable for this purpose. The outer periphery of each ring is defined by a forwardly extending lip 55 (FIG. 3); and the inner periphery of each ring is defined by a similar lip 56. The lips diverge from one another. The rings are seated in the inner cup with the inner lip in wiping contact with the piston rod, and with the outer lip in contact with the surrounding wall of the cup. Each ring is also formed with an annular rib 57 centrally of its forward face. The rib of the rear ring fits into a complementary groove 58 formed in an arcuate back of the next preceding ring, and the rib of the leading ring abuts centrally of a backup disc plate 59. A rounded back 61 of the rear ring seats against the bottom of the inner cup. The rings are of such a nature that upon being squeezed or compressed axially, the lip portions tend to expand radially outward. Here, the packing rings are squeezed between the bottom of the inner cup 50 and the back-up plate 59 by means of the outer cup 45 which presses upon the inner cup whereby the inner lips 56 press firmly upon the piston rod. The packing rings are arranged so that the inner lips are opposite to and face toward the corresponding end of the hydraulic cavity 29. In this arrangement of the packing rings and the direction of the lips, the rings serve to scoop or strip and wipe oil from the piston rod as the latter reciprocates.
It is noted that a soft resilient O-ring seal 62 is seated in an annular groove 63 defined between the rib 57 and the inner .lip 56 of the leading packing ring. This O-ring is squeezed between the inner lip 56 and the back-up plate 59 whereby it functions to press and hold the adjacent inner lip 55 tightly against the surface of the piston rod. This tight relation of the inner lip to the piston rod further aids in stripping oil from the latter. This O-ring is of still further advantage in that it serves to hold the adjacent lip down against the piston rod and thereby prevents the opposing pressure of gas in the compressor section from lifting the lip upwardly away from the piston rod. It can be seen that, if because of some deficiency in operation, the hydraulic pressure in the cavity 29 should become excessive so as to force the inner lips of the packing rings in the opposite direction, nevertheless, gas from the compressor section will be prevented from entering the cavity 29 as the hydraulic fluid is forced around the packing rings into the compressor section. It is noted that there is a slight annular clearance 60 between the back-up plate 59 and the piston rod, which clearance is relatively smaller than the thickness of the O-ring 62, and that the O-ring abuts against a side face of the back-up plate. In this arrangement, the back-up plate functions to prevent the O-ring from being drawn through it into the hydraulic cavity 29.
The sealing means 32 sealing over the opposite end of the hydraulic cavity 29 comprises a group of packing rings 64 similar to those described, but here three in number arranged one forwardly of the other. These rings are seated in a packing cup 65 in surrounding relation to the piston rod. The piston rod extends axially and with a slight clearance through this packing cup. The packing cup is disposed with a surrounding clearance 66 in an annular recess 67 formed in the hub of the body member 23. A short internal extension 68 of the body member extends into the recess 67 and abuts the rib 63 of the leading packing ring 71. An annular retaining plate 72, bolted fast to the end face of the body member, closes over the recess 66 and presses the packing cup 65 inwardly to compress the packing rings between the bottom of the cup and the extension 68. In this arrangement of the packing rings 64, the lips 55, 56 thereof are opposite to and face toward the hydraulic cavity 29. The outer lips 55 are in pressed contact with the surrounding wall of the packing cup 65 and the inner lips 56 are in pressed contact with the piston rod. In this arrangement, the packing rings 64- serve to seal the corresponding end of the cavity 29; and the forwardly extending inner lips function to scoop or strip and wipe oil from the piston rod as the latter reciprocates. Further, it can be seen that if hydraulic pressure in the cavity 29 should, because of some deficiency in operation, become excessive so as to force hydraulic fluid past the packing rings 64, the hydraulic fluid will seep around the packing cup into the clearance 66 and drain through a slot 73 into the crankcase.
It is to be noted that except for the several packing rings 54, 64, the piston rod otherwise reciprocates clear of the false head thus subjecting the piston rod to a minimum of frictional contact with the false head.
The pump 36 is associated in a suitable electrical circuit generally indicated at 74 in FIG. 1 in such manner that the compressor apparatus will not operate without the pump simultaneously operating. This is desired so that the hydraulic cavity 29 can be immediately supplied with sealing and cooling hydraulic fluid to avoid possible damage by heat to the packing seals. The circuit is also such that if the compressor for some reason is stopped, the pump will nevertheless continue to operate. This precaution is desired to continually maintain the hydraulic seal in the cavity 29 so as to prevent possible bleeding of gas from the compressor section into the crankcase. A suitable control switch mechanism 75 controls the pump motor 76 and the crankshaft motor 77.
It is to be noted that the crankcase sump 19 is used here for supplying the circulating hydraulic fluid to cool the piston rod and effect the hydraulic seal. However, a suitable reservoir or source provided independently of the crankcase sump may be utilized for this purpose, and the hydraulic fluid therein may be pre-cooled to the extent desired.
What is claimed is:
1. A piston-type gas compressor apparatus comprising a crank case section, a compressor head section, a piston reciprocable in the compressor head section having a piston rod extending into the crankcase section, a crank supported in the crankcase section drivingly connected to the piston rod, and a hydraulic gas seal system for sealing the compressor head section against leakage of gas around the piston rod into the crankcase section, the hydraulic gas seal system comprising: a false head mounted transversely of the compressor apparatus partitioning the compressor head section from the crankcase section, a cavity axially of the false head surrounding the piston rod, first sealing means about the piston rod sealing one end of the cavity from the compressor head section, other sealing means about the piston rod sealing an opposite end of the cavity from the crankcase section, a hydraulic sump within the crankcase adjacent the corresponding end of the false head, means for circulating hydraulic fluid from the sump through the cavity around the piston rod and back to the sump, and control means for maintaining the fluid circulating through the cavity at a pressure greater than that of gas in the compressor head section, wherein the first and other sealing means are of soft resilient material and provide together with the hydraulic fluid the sole contact with the piston rod within the false head.
2. A piston-type gas compressor apparatus comprising a crankcase section, a compressor head section, a piston reciprocable in the compressor head section having a piston rod extending into the crankcase section, a crank supported in the crankcase section drivingly connected to the piston rod, and a hydraulic gas seal system for sealing the compressor head section against leakage of gas around the piston rod into the crankcase section, the hydraulic gas seal system comprising: a false head mounted transversely of the compressor apparatus partitioning the compressor head section from the crankcase section, a cavity axially of the false head surrounding the piston rod, first sealing means about the piston rod sealing one end of the cavity from the compressor head section, other sealing means about the piston rod sealing an opposite end of the cavity from the crankcase section, a hydraulic sump, means for circulating hydraulic fluid from the sump through the cavity around the piston rod and back to the sump, and control means for maintaining the fluid circulating through the cavity at a pressure greater than that of gas in the compressor head section; wherein the false head includes a main annular body member axially of which the cavity is provided, an inlet passage in the body member communicating at one end with the cavity, piping connecting an opposite end of the inlet passage with the sump, a hydraulic fluid circulating pump connected in the piping, an outlet passage in the body member communicating at one end with the cavity, return piping connecting an opposite end of the outlet passage with the sump, and a pressure regulating valve connected in the return piping.
3. A piston-type gas compressor apparatus as in claim 2, wherein maximum pressure relief control means is connected in the return piping intermediately of the regulating valve and the outlet passage.
4. A piston-type gas compressor apparatus comprising a crank case section, a compressor head section, a piston reciprocable in the compressor head section having a piston rod extending into the crankcase section, a crank supported in the crankcase section drivingly connected to the piston rod, and a hydraulic gas seal system for sealing the compressor head section against leakage of gas around the piston rod into the crankcase section, the hydraulic gas seal system comprising: a false head mounted transversely of the compressor apparatus partitioning the compressor head section from the crankcase section, a cavity axially of the false head surrounding the piston rod, first sealing means about the piston rod sealing one end of the cavity from the compressor head section, other sealing means about the piston rod sealing an opposite end of the cavity from the crankcase section, a hydraulic sump, means for circulating hydraulic fluid from the sump through the cavity around the piston rod and back to the sump, and control means for maintaining the fluid circulating through the cavity at a pressure greater than that of gas in the compressor head section; wherein each of the first and the other sealing means includes at least one packing ring of soft resilient material surrounding the piston shaft having inner and outer peripheral diverging lips, the inner lip of which has wiping contact with the piston rod and faces toward the corresponding end of the cavity.
5. A piston-type gas compressor apparatus as in claim 4, wherein the first sealing means includes an annular back-up plate surrounding the piston rod and lying in abutment with the main body member about one end of the cavity, the said packing ring of the first sealing means includes a centrally located annular rib whereby an annular groove is defined between the rib and the inner lip, and an O-ring is squeezed in the groove between the inner lip and the back-up plate so as to press the inner lip against the surface of the piston rod.
6. A piston-type gas compressor apparatus as in claim 5, wherein the back-up plate has a close clearance about the piston rod of relatively shorter radial extent than the radial extent of the cavity and of the radial extent of the O-ring.
7. A piston-type gas compressor apparatus comprising a crankcase section, a compressor head section, a piston reciprocable in the compressor head section having a piston rod extending into the crankcase section, a crank supported in the crankcase section drivingly connected to the piston rod, and a hydraulic gas seal system for sealing the compressor head section against leakage of gas around the piston rod into the crankcase section, the hydraulic gas seal system comprising: a false head mounted transversely of the compressor apparatus partitioning the compressor head section from the crankcase section, a cavity axially of the false head surrounding the piston rod, first sealing means about the piston rod sealing one end of the cavity from the compressor head section, other sealing means about the piston rod sealing an opposite end of the cavity from the crankcase section, a hydraulic sump, means for circulating hydrau lic fluid from the sump through the cavity around the piston rod and back to the sump, and control means for maintaining the fluid circulating through the cavity at a pressure greater than that of gas in the compressor head section; wherein control means is provided for simultaneously eflfecting operation of the compressor apparatus and of the means for circulating hydraulic fluid through the cavity, and is further provided for stopping operation of the compressor apparatus without stopping operation of said means for circulating hydraulic fluid through the cavity.
References Cited by the Examiner UNITED STATES PATENTS 1,321,923 11/1919 Knop 230-40 2,461,294 2/1949 Nathan 230-203 2,878,990 3/1959 Zurcher 230172 ROBERT WALKER, Primary Examiner.
Claims (1)
1. A PISTON-TYPE GAS COMPRESSOR APPARATUS COMPRISING A CRANK CASE SECTION, A COMPRESSOR HEAD SECTION, A PISTON RECIPROCABLE IN THE COMPRESSOR HEAD SECTION HAVING A PISTON ROD EXTENDING INTO THE CRANKCASE SECTION, A CRANK SUPPORTED IN THE CRANKCASE SECTION DRIVINGLY CONNECTED TO THE PISTON ROD, AND A HYDRAULIC GAS SEAL SYSTEM FOR SEALING THE COMPRESSOR HEAD SECTION AGAINST LEAKAGE OF GAS AROUND THE PISTON ROD INTO THE CRANKCASE SECTION, THE HYDRAULIC GAS SEAL SYSTEM COMPRISING: A FALSE HEAD MOUNTED TRANSVERSELY OF THE COMPRESSOR APPARATUS PARTITIONING THE COMPRESSOR HEAD SECTION FROM THE CRANKCASE SECTION, A CAVITY AXIALLY OF THE FALSE HEAD SURROUNDING THE PISTON ROD, FIRST SEALING MEANS ABOUT THE PISTON ROD SEALING ONE END OF THE CAVITY FROM THE COMPRESSOR HEAD SECTION, OTHER SEALING MEANS ABOUT THE PISTON ROD SEALING AN OPPOSITE END OF THE CAVITY FROM THE CRANKCASE SECTION, A HYDRAULIC SUMP WITHIN THE CRANKCASE ADJACENT THE CORRESPONDING END OF THE FALSE HEAD, MEANS FOR CIRCULATING HYDRAULIC FLUID FROM THE SUMP THROUGH THE CAVITY AROUND THE PISTON ROD AND BACK TO THE SUMP, AND CONTROL MEANS FOR MAINTAINING THE FLUID CIRCULATING THROUGH THE CAVITY AT A PRESSURE GREATER THAN THAT OF GAS IN THE COMPRESSOR HEAD SECTION, WHEREIN THE FIRST AND OTHER SEALING MEANS ARE OF SOFT RESILIENT MATERIAL AND PROVIDE TOGETHER WITH THE HYDRAULIC FLUID THE SOLE CONTACT WITH THE PISTON ROD WITHIN THE FALSE HEAD.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US489361A US3310230A (en) | 1965-09-22 | 1965-09-22 | Hydraulic gas seal system for pistontype gas compressor |
GB29202/66A GB1124203A (en) | 1965-09-22 | 1966-06-29 | Hydraulic gas seal system for piston type gas compressor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US489361A US3310230A (en) | 1965-09-22 | 1965-09-22 | Hydraulic gas seal system for pistontype gas compressor |
Publications (1)
Publication Number | Publication Date |
---|---|
US3310230A true US3310230A (en) | 1967-03-21 |
Family
ID=23943540
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US489361A Expired - Lifetime US3310230A (en) | 1965-09-22 | 1965-09-22 | Hydraulic gas seal system for pistontype gas compressor |
Country Status (2)
Country | Link |
---|---|
US (1) | US3310230A (en) |
GB (1) | GB1124203A (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3789675A (en) * | 1972-05-30 | 1974-02-05 | Vilter Manufacturing Corp | Gas compressor having rolling type sealing diaphragm |
US3832935A (en) * | 1972-04-26 | 1974-09-03 | Maschf Augsburg Nuernberg Ag | Piston cylinder engine with pressurized piston rod seal |
US4060023A (en) * | 1976-06-04 | 1977-11-29 | George Vegella | Dual lip rod wiping seal |
US4196910A (en) * | 1977-05-19 | 1980-04-08 | Ishikawajima-Harima Jukogyo Kabushiki Kaisha | Shaft sealing device for turbocharger |
US4323252A (en) * | 1977-04-15 | 1982-04-06 | Snamprogetti S.P.A. | Gland seal system for use with a methanation reactor |
US4637295A (en) * | 1985-04-09 | 1987-01-20 | Powers Frederick A | Pump seal with curved backup plate |
US5064350A (en) * | 1989-05-16 | 1991-11-12 | Alcatel Stk A/S | Pump station |
US20040188949A1 (en) * | 2002-10-22 | 2004-09-30 | Dean Foote | Seal assembly for reciprocating shaft |
US20080031747A1 (en) * | 2004-05-17 | 2008-02-07 | Koninklijke Philips Electronics N.V. | Reciprocating Pump With Reduced Noise Level |
FR3003906A1 (en) * | 2013-03-26 | 2014-10-03 | Ct Tech Des Ind Mecaniques | OIL SCRAPING DEVICE FOR AN ALTERNATIVE COMPRESSOR |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5890881A (en) * | 1996-11-27 | 1999-04-06 | Alliedsignal Inc. | Pressure balanced turbocharger rotating seal |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1321923A (en) * | 1918-12-17 | 1919-11-18 | Unit Ice Machine Co | Refrigerating-compressor. |
US2461294A (en) * | 1946-05-21 | 1949-02-08 | Pennsylvania Pump & Compressor | Seal for gas compressors |
US2878990A (en) * | 1953-10-30 | 1959-03-24 | Sulzer Ag | Upright piston compressor |
-
1965
- 1965-09-22 US US489361A patent/US3310230A/en not_active Expired - Lifetime
-
1966
- 1966-06-29 GB GB29202/66A patent/GB1124203A/en not_active Expired
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1321923A (en) * | 1918-12-17 | 1919-11-18 | Unit Ice Machine Co | Refrigerating-compressor. |
US2461294A (en) * | 1946-05-21 | 1949-02-08 | Pennsylvania Pump & Compressor | Seal for gas compressors |
US2878990A (en) * | 1953-10-30 | 1959-03-24 | Sulzer Ag | Upright piston compressor |
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3832935A (en) * | 1972-04-26 | 1974-09-03 | Maschf Augsburg Nuernberg Ag | Piston cylinder engine with pressurized piston rod seal |
US3789675A (en) * | 1972-05-30 | 1974-02-05 | Vilter Manufacturing Corp | Gas compressor having rolling type sealing diaphragm |
US4060023A (en) * | 1976-06-04 | 1977-11-29 | George Vegella | Dual lip rod wiping seal |
US4323252A (en) * | 1977-04-15 | 1982-04-06 | Snamprogetti S.P.A. | Gland seal system for use with a methanation reactor |
US4196910A (en) * | 1977-05-19 | 1980-04-08 | Ishikawajima-Harima Jukogyo Kabushiki Kaisha | Shaft sealing device for turbocharger |
US4637295A (en) * | 1985-04-09 | 1987-01-20 | Powers Frederick A | Pump seal with curved backup plate |
US5064350A (en) * | 1989-05-16 | 1991-11-12 | Alcatel Stk A/S | Pump station |
US20040188949A1 (en) * | 2002-10-22 | 2004-09-30 | Dean Foote | Seal assembly for reciprocating shaft |
US7597328B2 (en) | 2002-10-22 | 2009-10-06 | Dean Foote | Seal assembly for reciprocating shaft |
US20080031747A1 (en) * | 2004-05-17 | 2008-02-07 | Koninklijke Philips Electronics N.V. | Reciprocating Pump With Reduced Noise Level |
US8523015B2 (en) * | 2004-05-17 | 2013-09-03 | Koninklijke Philips N.V. | Reciprocating pump with reduced noise level |
FR3003906A1 (en) * | 2013-03-26 | 2014-10-03 | Ct Tech Des Ind Mecaniques | OIL SCRAPING DEVICE FOR AN ALTERNATIVE COMPRESSOR |
Also Published As
Publication number | Publication date |
---|---|
GB1124203A (en) | 1968-08-21 |
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