US1897547A - Vacuum pump - Google Patents
Vacuum pump Download PDFInfo
- Publication number
- US1897547A US1897547A US365960A US36596029A US1897547A US 1897547 A US1897547 A US 1897547A US 365960 A US365960 A US 365960A US 36596029 A US36596029 A US 36596029A US 1897547 A US1897547 A US 1897547A
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- US
- United States
- Prior art keywords
- vanes
- rotor
- cylinder
- pump
- port
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04C—ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
- F04C27/00—Sealing arrangements in rotary-piston pumps specially adapted for elastic fluids
- F04C27/02—Liquid sealing for high-vacuum pumps or for compressors
Definitions
- a pumpl of the character sta-ted wherein the rotor shall be so arranged 'as to constantly press against the lateral wall of the housing adjacent the forward edge ofthe loutlet port, and wherein the ⁇ vane, carried by the rotor, shall be provided with an outer edge exactlysimilar in radius to thatof the rotor, so that the periphery of the rotor and the outer edge of the vane, which is fully retracted immediately before approaching the exhaust port, shall in effect form a solid perfect circle to perfectly seal the exhaust port, as such vane passes the port, and thus render it impossible for any air to continue past the port or trap itself anywhere within the pump.
- the invention also comprehends the provision of a pump of the character stated wherein the solid portion of the rotor in rear of the vane shall continue to seal the exhaust port as the vane passes the intake port, to trap the air, and during the forcing of the .air through'the exhaust port by the vane.
- the invention also comprehends the provision of a pump of the character stated nel shall be spaced from the intake portV for a distance substantially equal tothe thickness of the vane whereby to prevent anyl suction vat the rear side of the vane and to jects, the invention coniprehends the pro- 1929. Serial No. 365,960.
- the invention also comprehends the provision of a 'pump of the character stated wherein the vanes, preferably two, shall be arranged in the rotor at opposite sides of the axis thereof, whereby to permit the use of comparatively long vanes and permit "them to slide inwardly and outwardly beyond the periphery of the rotor for a comparatively great distance, and t-hus provide a comparatively large-expansion chamber and render the pump highly elicient.
- the invention also comprehends the provision of a pump of the character stated wherein the vanes shall be slidably mounted in the rotor in a manner to prevent them from tilting, and thus increase the durability of the pump.
- the invention also comprehends the provision of a pump of the character stated wherein the vanes shall be arranged in slots formed in the rotor and extending from the periphery of the rotor to points at opposite sides of the axis thereof, and wherein the vanes shall be yieldingly held in contact with the housing by coil springs arranged between the vanes and the inner ends of the slots.
- the invention also comprehends the provision of a pump of the character stated wherei ⁇ the vane receiving slots shall be in communication with the oil in which the pump is submerged in order to permit the oil i to .enter the slots as the vanes move outwardly and thus prevent the-formation of air pockets', the oillubricating the vanes and establishing an air-tight seal between them and the rotor.
- Figure 1 is a sectional view of a vacuum pump constructed in accordance with my in- -vention, the section being taken on the planes indicated by the line 1-1 of Figure 2; l
- Figure 2 is a sectional view taken on the vertical planes indicated by the line2-2 ⁇ of Figure 1;
- Figure 3 is a detailed sectional view taken on the plane indicated bythe line 3-3 of Figure 2;
- Figure 4 is an elevational view of one oi the vanes of the pump.
- FIG. 1 designates the pump and 2 a case within which the pump is arranged.
- the case 2 is provided at its lower end with supporting and anchoring lugs or feet 3, and it is provided A.in its upper end wall with an air escape port 4.
- the case 2 contains oil. designated 5, in
- the laterah or side wall 6 of the case 2 1s provided with a circular opening 7 which is diametrically larger than the pump 1.
- a cover 8 is provided for the opening 7 and it is secured in place by machine screws 9.
- the cover 8 is provided at its inner side with an annular ⁇ rib or flange 10, which extends through the Y opening 7 and to which the pump 1 is secured by machine screws 11.
- a stuing box 12, through which the shaft 13 of the pump 1 extends, is carried by the cover 8 to prevent the olill ffrom leaking from the case 2 about the s a t.
- the pump l comprises a cylinder, which:
- haust which is arranged rearwardly beyon said center.
- An inlet channel 19 has its upper end arranged in communication with inlet port 17 and has its lower end positioned between said ort-and the exhaust rt 18.
- the exhaust or outlet port 18 consists of inner and outer channels of inverted V-form and having their inner ends alined transversely of the cylinder, as shown in Figure 3.
- outer and longer channel of the exhaust or outlet port 18 communicates at its ends with the interior of the cylinder at the inner corners of the cylinder, and the apex thereof is open to provide for the discharge of airfrom the c linder.
- the yshorter and inner channel o the exhaust or outlet port 18 communicates at its ends with the interior of the cylinder between the ends of' the longer and outer channel, and it communicates at its apex with the open apex ofthe longer 1,897,541'Av y and Y outer channel.
- "A iiap valve 21 is provided for the exhaust port 18 and is secured to the outer side of the cylinder wall 14 by screws 22, said wall of the cylinder being formed to provide a flat seat 23 for the valve.
- a cylindrical rotor 24 is concentrically mounted upon the shaft 13, and is fxedly secured thereto.
- the rotor 24 is supported within the cylinder in such manner that it is held under pressure in contact with the inner surface of the wall 14 in alinement with the front edge of the exhaust port 18.
- the rotor 24 is provided atopposite sides of the shaft 13 with parallel slots25 which extend from opposite sides of the periphery of the rotor to points inwardly beyond the shaft.
- Vanes 26 are slidably arranged in the slots 25, and are provided with outer curved edges 27 which areexactly similar in radius to that of the rotor 24.-
- the vanes 26 are constantly urged outwardly with respect to the rotor 24, with their curved ends 27 in Contact with the inner surfaceof the cylinder wall 14, by coil springs 28 which are arranged between the vanes and the inner end walls of the slots 25.
- the vanes 26 are provided with recesses 29.which receive portions of the springs 28 when the vanes are projected and which receive the springs entirely when the vanes are fully retracted.
- the heads 15 are provided in their inner sides with recesses 30 which surround the shaft 13 and communicate with .
- the open sides of the vane receiving slots 25,v and passages 31 extend downwardly and outwardly from the lower portions of the recess and yestablish communication between the interior of the case 2 and the recess.
- the recesses 30 and passages 31 permit the oil in the case 2 to ow into the vane receiving slots 25 as the vanes 26 are forced outwardly from the slots, with the result that the outer movement of the vanes does not form an air pocket within rotor 24, the vanes contacting with the inner end walls of the slots when in fully retracted position.
- the oil entering the slots 25 lubricates the vanes 26 and 'establishes an air-tight contact between the vanes and the rotor 24.
- the rotor 24 and the vanes 26 contact with the inner sides of the heads 15, and an air-tight connection between these parts is established by the oil in the recess 30.
- the recess 30 facilitates the proper lubrication of the bearings 16 by the oil.
- the rotor 24 turns in a clockwise direction as viewed in Figure 2, and to permit of its being operated, the shaft 13 has a pulley 32 fixed thereto.
- the inner end of the air inlet channel 19 is spaced from the corresponding end of the outlet port. 18 for a distance substantially equal to the thickness of the vanes 26, and such channel prevents any suction on the rear side of the vane, with the result that no hollow space without access to the outlet port 18 is possible.
- the formation of the outlet port 18, and particularly thelocation of the inner ends of its outer and longer channel, prevents air from being trapped at any point in the cylinder and especially in the corners of the and the formation of the exhaust port also prevents wear in any one spot of the annular Wall of the cylinder.
- the arrangement of the slots 25 at opposite sides of the shaft 13 permits the formation of comparatively deep slots. This enables comparatively long vanes to be used, and permits the vanes to slide in and out of the rotor 24 for a comparatively great distance, with the result that a comparatively large expansionv chamber 33 is provided.
- the side walls of the slots 25 support the vanes 26 against tipping. After the pump is in operation long enough to create a partial vacuum, the atmospheric pressure on the surface of the oil in the case 2 forces the oil into the slots 25 behind the vanes 26, and forces them outwardly against the annular wall of ⁇ the cylinder.
- the oil enters the slots 25 by way of the passages 31 and recesses 36, and holds the vanes against the wall of the cylinder under equal pressure.
- ⁇ corners of the cylinder to prevent the trapping of air in the corners of the cylinder
- vacuum pump comprising a cylinder provided in itsl annular wall wlth an inlet and an outlet port, a cylindrical rotor eccentrically supported within the cylinder and having its periphery constantly contacting with said wall in alinement with the front edge of the outlet port, vanes slidably arranged in the rotor and provided with curved outer edges having a radius similar to that of the rotor, the outer edges of the vanes i and the periphery of the rotor al'ining and forming in elect a solid circle when said"
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Rotary Pumps (AREA)
- Applications Or Details Of Rotary Compressors (AREA)
Description
Feb. 14, 1933. F.| BUENGER 1,897,547
Patented Feb. 14, 1933 UNITED STATES FREDERICK L. BUENGER, F C HICYAGO, ILLINOIS i VACUUM PUMP Application led May 25,
1 vacuum pump of ythe character stated,
through the medium of which a practically.
perfect vacuum may be obtained.
To attain the foregoing and other obvision of a pumpl of the character sta-ted wherein the rotor shall be so arranged 'as to constantly press against the lateral wall of the housing adjacent the forward edge ofthe loutlet port, and wherein the`vane, carried by the rotor, shall be provided with an outer edge exactlysimilar in radius to thatof the rotor, so that the periphery of the rotor and the outer edge of the vane, which is fully retracted immediately before approaching the exhaust port, shall in effect form a solid perfect circle to perfectly seal the exhaust port, as such vane passes the port, and thus render it impossible for any air to continue past the port or trap itself anywhere within the pump.
The invention also comprehends the provision of a pump of the character stated wherein the solid portion of the rotor in rear of the vane shall continue to seal the exhaust port as the vane passes the intake port, to trap the air, and during the forcing of the .air through'the exhaust port by the vane.
40 The invention also comprehends the provision of a pump of the character stated nel shall be spaced from the intake portV for a distance substantially equal tothe thickness of the vane whereby to prevent anyl suction vat the rear side of the vane and to jects, the invention coniprehends the pro- 1929. Serial No. 365,960.
avoid hollow spaces without access to the exhaust port.
' rJlhe invention also comprehends the provision of a pump of the character stated e wherein the exhaust port shall be of double- V-form, so as to cause the air to be forced therethrough for the entire width of the vane so as to prevent the trapping of air in the corners of the port. l
The invention also comprehends the provision of a 'pump of the character stated wherein the vanes, preferably two, shall be arranged in the rotor at opposite sides of the axis thereof, whereby to permit the use of comparatively long vanes and permit "them to slide inwardly and outwardly beyond the periphery of the rotor for a comparatively great distance, and t-hus provide a comparatively large-expansion chamber and render the pump highly elicient.
The invention also comprehends the provision of a pump of the character stated wherein the vanes shall be slidably mounted in the rotor in a manner to prevent them from tilting, and thus increase the durability of the pump.
The invention also comprehends the provision of a pump of the character stated wherein the vanes shall be arranged in slots formed in the rotor and extending from the periphery of the rotor to points at opposite sides of the axis thereof, and wherein the vanes shall be yieldingly held in contact with the housing by coil springs arranged between the vanes and the inner ends of the slots.
The invention also comprehends the provision of a pump of the character stated wherei` the vane receiving slots shall be in communication with the oil in which the pump is submerged in order to permit the oil i to .enter the slots as the vanes move outwardly and thus prevent the-formation of air pockets', the oillubricating the vanes and establishing an air-tight seal between them and the rotor.
The invention is hereinafter fully described and claimed, and illustrated in the accompanying drawings, wherein Figure 1 is a sectional view of a vacuum pump constructed in accordance with my in- -vention, the section being taken on the planes indicated by the line 1-1 of Figure 2; l
Figure 2 is a sectional view taken on the vertical planes indicated by the line2-2` of Figure 1;
Figure 3 is a detailed sectional view taken on the plane indicated bythe line 3-3 of Figure 2; and
Figure 4 is an elevational view of one oi the vanes of the pump.
Referring in detail to the drawings 1 designates the pump and 2 a case within which the pump is arranged. The case 2 is provided at its lower end with supporting and anchoring lugs or feet 3, and it is provided A.in its upper end wall with an air escape port 4. The case 2 contains oil. designated 5, in
which the pump 1 is submerged.l The laterah or side wall 6 of the case 2 1s provided with a circular opening 7 which is diametrically larger than the pump 1. A cover 8 is provided for the opening 7 and it is secured in place by machine screws 9. The cover 8 is provided at its inner side with an annular` rib or flange 10, which extends through the Y opening 7 and to which the pump 1 is secured by machine screws 11. A stuing box 12, through which the shaft 13 of the pump 1 extends, is carried by the cover 8 to prevent the olill ffrom leaking from the case 2 about the s a t.
The pump l comprises a cylinder, which:
haust (port 18 which is arranged rearwardly beyon said center. An inlet channel 19 has its upper end arranged in communication with inlet port 17 and has its lower end positioned between said ort-and the exhaust rt 18. A tube 2Q, with which the vessel to exhausted is connected, communicates with the intake port 17 and intake channel 19. The exhaust or outlet port 18 consists of inner and outer channels of inverted V-form and having their inner ends alined transversely of the cylinder, as shown in Figure 3. The
outer and longer channel of the exhaust or outlet port 18 communicates at its ends with the interior of the cylinder at the inner corners of the cylinder, and the apex thereof is open to provide for the discharge of airfrom the c linder. The yshorter and inner channel o the exhaust or outlet port 18 communicates at its ends with the interior of the cylinder between the ends of' the longer and outer channel, and it communicates at its apex with the open apex ofthe longer 1,897,541'Av y and Y outer channel. "A iiap valve 21 is provided for the exhaust port 18 and is secured to the outer side of the cylinder wall 14 by screws 22, said wall of the cylinder being formed to provide a flat seat 23 for the valve. A cylindrical rotor 24 is concentrically mounted upon the shaft 13, and is fxedly secured thereto. The rotor 24 is supported within the cylinder in such manner that it is held under pressure in contact with the inner surface of the wall 14 in alinement with the front edge of the exhaust port 18. The rotor 24 is provided atopposite sides of the shaft 13 with parallel slots25 which extend from opposite sides of the periphery of the rotor to points inwardly beyond the shaft. Vanes 26 are slidably arranged in the slots 25, and are provided with outer curved edges 27 which areexactly similar in radius to that of the rotor 24.- The vanes 26 are constantly urged outwardly with respect to the rotor 24, with their curved ends 27 in Contact with the inner surfaceof the cylinder wall 14, by coil springs 28 which are arranged between the vanes and the inner end walls of the slots 25. The vanes 26 are provided with recesses 29.which receive portions of the springs 28 when the vanes are projected and which receive the springs entirely when the vanes are fully retracted.
The heads 15 are provided in their inner sides with recesses 30 which surround the shaft 13 and communicate with .the open sides of the vane receiving slots 25,v and passages 31 extend downwardly and outwardly from the lower portions of the recess and yestablish communication between the interior of the case 2 and the recess. The recesses 30 and passages 31 permit the oil in the case 2 to ow into the vane receiving slots 25 as the vanes 26 are forced outwardly from the slots, with the result that the outer movement of the vanes does not form an air pocket within rotor 24, the vanes contacting with the inner end walls of the slots when in fully retracted position. The oil entering the slots 25 lubricates the vanes 26 and 'establishes an air-tight contact between the vanes and the rotor 24. The rotor 24 and the vanes 26 contact with the inner sides of the heads 15, and an air-tight connection between these parts is established by the oil in the recess 30. Furthermore, the recess 30 facilitates the proper lubrication of the bearings 16 by the oil.
lIn practice, the rotor 24 turns in a clockwise direction as viewed in Figure 2, and to permit of its being operated, the shaft 13 has a pulley 32 fixed thereto.
When one of the vanes 26 is fully retracted, which will occur when it contacts with the cylinder wall 14 at thefront edge of the outlet port 18, the outer edge of the vane and the periphery `of the rotor 24 forms in effect a solid perfect circle, with the result that a cylinder,
perfect seal of' the outlet port 18 iseiected. It will thus be apparent that it is im ossible for any air to continue past the out et port 18 or trap itself anywhere within the cylinder. As the vane 26 approaches the inlet port 17, and until the vane has forced the air in advance of it through the outlet port 18, the solid portion of the rotor 24 in rear of the vane will continue the seal of the outlet port.
-The inner end of the air inlet channel 19 is spaced from the corresponding end of the outlet port. 18 for a distance substantially equal to the thickness of the vanes 26, and such channel prevents any suction on the rear side of the vane, with the result that no hollow space without access to the outlet port 18 is possible. The formation of the outlet port 18, and particularly thelocation of the inner ends of its outer and longer channel, prevents air from being trapped at any point in the cylinder and especially in the corners of the and the formation of the exhaust port also prevents wear in any one spot of the annular Wall of the cylinder.
The arrangement of the slots 25 at opposite sides of the shaft 13 permits the formation of comparatively deep slots. This enables comparatively long vanes to be used, and permits the vanes to slide in and out of the rotor 24 for a comparatively great distance, with the result that a comparatively large expansionv chamber 33 is provided. The side walls of the slots 25 support the vanes 26 against tipping. After the pump is in operation long enough to create a partial vacuum, the atmospheric pressure on the surface of the oil in the case 2 forces the oil into the slots 25 behind the vanes 26, and forces them outwardly against the annular wall of `the cylinder.
The oil enters the slots 25 by way of the passages 31 and recesses 36, and holds the vanes against the wall of the cylinder under equal pressure.
While I have described the principle-of the invention, together with the structure which I now consider the preferred embodiment thereof, I wish it understood that the structure shown is merely illustrative and that such changes may be made, when deedges reach the point of contact between the rotor and cylinder to elect a perfect sealing of the outlet port, means yieldin ly holding the vanes with saidl edges thereo 1n contact with said wall during the starting of the rotor, and means coacting with said yielding means to hold the vanes into contact with the cylinder Wallwhen a substantial vacuum has been created within a member connected to the intake port.
`corners of the cylinder to prevent the trapping of air in the corners of the cylinder, a cylindrical rotor eccentrically supported within the cylinder and having its periphery constantly contacting withfsaid cylinder Wall in alinement with the front edges of the lou-tlet port, vanes slidably arranged in the rotor and provided with curved outer edges having a radius similar to that of the rotor, the outer edges of the vanes and the'periphery of the rotoralining and forming in effect a solid circle when said edges reach the point of contact between the rotor and said cylinder wall to effect a perfect sealing of the outlet port, means yieldingly holding the vanes with said edges thereof in contact with said cylinder Wall during the starting of the rotor, and means coaeting with said yielding means to hold the vanes into contact with the cylinder wall when a substantial vacuum has been created within a ymember connected to the intake port.
In testimony whereof I hereunto allix my signature.
FREDERICK L. BUENGER.
sired, as fall within the scope of the invention as claimed.
1. vacuum pump, comprising a cylinder provided in itsl annular wall wlth an inlet and an outlet port, a cylindrical rotor eccentrically supported within the cylinder and having its periphery constantly contacting with said wall in alinement with the front edge of the outlet port, vanes slidably arranged in the rotor and provided with curved outer edges having a radius similar to that of the rotor, the outer edges of the vanes i and the periphery of the rotor al'ining and forming in elect a solid circle when said"
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US365960A US1897547A (en) | 1929-05-25 | 1929-05-25 | Vacuum pump |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US365960A US1897547A (en) | 1929-05-25 | 1929-05-25 | Vacuum pump |
Publications (1)
Publication Number | Publication Date |
---|---|
US1897547A true US1897547A (en) | 1933-02-14 |
Family
ID=23441111
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US365960A Expired - Lifetime US1897547A (en) | 1929-05-25 | 1929-05-25 | Vacuum pump |
Country Status (1)
Country | Link |
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US (1) | US1897547A (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2634904A (en) * | 1948-04-19 | 1953-04-14 | Leonard F Clerc | Combined refrigerating compressor and oil separator |
US2827226A (en) * | 1954-06-17 | 1958-03-18 | Thompson Prod Inc | Refrigeration apparatus |
US2833465A (en) * | 1955-08-02 | 1958-05-06 | Bendix Aviat Corp | Multi-vane positive displacement pump |
US2852183A (en) * | 1955-08-02 | 1958-09-16 | Bendix Aviat Corp | Rotary multi-vane positive displacement pump |
US3374943A (en) * | 1966-08-15 | 1968-03-26 | Kenneth G Cervenka | Rotary gas compressor |
-
1929
- 1929-05-25 US US365960A patent/US1897547A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2634904A (en) * | 1948-04-19 | 1953-04-14 | Leonard F Clerc | Combined refrigerating compressor and oil separator |
US2827226A (en) * | 1954-06-17 | 1958-03-18 | Thompson Prod Inc | Refrigeration apparatus |
US2833465A (en) * | 1955-08-02 | 1958-05-06 | Bendix Aviat Corp | Multi-vane positive displacement pump |
US2852183A (en) * | 1955-08-02 | 1958-09-16 | Bendix Aviat Corp | Rotary multi-vane positive displacement pump |
US3374943A (en) * | 1966-08-15 | 1968-03-26 | Kenneth G Cervenka | Rotary gas compressor |
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