CA2273016A1 - Gas compressor - Google Patents
Gas compressor Download PDFInfo
- Publication number
- CA2273016A1 CA2273016A1 CA002273016A CA2273016A CA2273016A1 CA 2273016 A1 CA2273016 A1 CA 2273016A1 CA 002273016 A CA002273016 A CA 002273016A CA 2273016 A CA2273016 A CA 2273016A CA 2273016 A1 CA2273016 A1 CA 2273016A1
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- CA
- Canada
- Prior art keywords
- air
- compressing
- piston
- rotatable member
- compressor
- 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.)
- Abandoned
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Classifications
-
- 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
- F04B35/00—Piston pumps specially adapted for elastic fluids and characterised by the driving means to their working members, or by combination with, or adaptation to, specific driving engines or motors, not otherwise provided for
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Compressors, Vaccum Pumps And Other Relevant Systems (AREA)
- Compressor (AREA)
- Structures Of Non-Positive Displacement Pumps (AREA)
- Applications Or Details Of Rotary Compressors (AREA)
- Transmission Devices (AREA)
Abstract
This invention relates to a gas compressor including several compression units that can respectively compress air and generate a lot of compressed gas with little power. These compression units are mounted on the rotary or rotated assemblies and are able to rotate therewith, and the air is compressed while the said units are turning down with the aid of gravity.
Description
~ ~~ uo bb uu.v m: In r.~ vr.~ xh r..am_w _ ,E; uu:i AIR COMPRESSOR
The present invention relates to an air compressor, particularly to, an air compressor having a plurality of air compressing devices respectively able ~ o of naturally to compress air and to generate a large quantity of compressed air but requires only a very little power.
Pzevious conventional air compressor is necessary to expend much electricity, therefore, it is necessazy t:o improve the conventional air compressor or to develop new energy or power.
The present invention provides an air compressor having a plurality of air compressing devices zespectyvely able of naturally compressing natwcal air and generating a large quantity of compressed aiz' but requiring only very little power to be provided to users for use and to get essential power.
The present invention provides an aix compressor having a plurality of air compressing devices respectively capable of naturally compressing a o natural air and generating a lau~ge quantity of compressed air but requiring only a very little power.
The plurality of air compressing devices are installed to a rotatable/rotated member and to together revolve therewith around the shaft following the 3s rotation of the rotatable/rotated member and to respectively and naturally irapulsc down to compress air.
a~o Fig. 1 is a side view of the first Embodiment of the air compressor _1_ t~~ u~ as Wu.v lt:lo r:~3 -- -t,Y:-~ Hri Y.-alt..\1 according to the present of invention.
Fig. 2 is enlarged side view section of a tc'ough like member providing for a bearing to inlay and a hollow shaft borne via the bearing and a rubber cap having a central hole providing for covering an outside side of the bearing and providing for an end portion of the hollow shaft to be inserted therein and a container receiving and storing the compressed air come from the hollow shaft etc. of the air compressor of the present of invention.
to Fig. 3 is a side view of a second etnbodi~ment of the air compressor of the pzesent of invention.
~5 As shown in Fig. 1, the air compressor of present invention comprises:
a plurality of air compressing devices which arc respectively attracted by the gravity and naturally to impulse down for compressing natural air by the gravity;
a rotatable/rotated member (for example a rotatable hollow shaft 1) providing for installing the plurality of air compressing devices and z5 discharging all of the compressed .air compressed by the plurality of air compressing devices:
the plurality of air compressing devices. 2,3,4,5,6,7,8,9 arc installed to the rotatablc hollow shaft 1 or the rotated member and to together revolve 3o around a the sliaft following the rotation of the rotatable hollow shaft 1, and are respectively attracted by the gravity and naturally to impulse down for compressing natural air by the gravity and to generate a large quantity of compressed air to be provided to user for use and to get essential power when each of the plurality of air ss compressing devices respectively revolves around the shaft to a position on or about a vertical line (vertical position);
the each of the plurality of air compressing devices comprises a long cyliuader (a long air chamber denoted by reference numbers 40 2,3,4,5,6,7,8,9) and a solid, long and very weighty piston 10 or 11 (an appropriately long and weighty F~iston) inside the long cylinder and -z-t~~ua as 5lu.v m:t, r.~ t,r.~1 ri1~ r.~lh\1 - ~l]UU~
can impulse down to compress the natural air by the gravity only and without using any power, two ai.r intakes 2 respectively can automatically open/close to allow/rcstrict the natural air entering the long cylinder of the each au compressing device; and s a short pipe 12 or 13 and ethers constructed for installing the each air compressing device and conveying out the coznprcssed air compressed via tb.e each air compressing device, and for restricting the compressed air to discharge only at a restricted quantity for generating an appropriate high pressure, then to discharge the io .compressed air:
two supporters 14, 15 which have respectively a seal-type bearing 16, 17 and are respectively to support two ends of the rotatable hollow shaft 1 or the rotated member and to allow the rotatable hollow shaft 1 or the x5 rotated member to rotate;
a receiving container 19 for receiving and containing all of the coz~apressed air compressed via the each of th.e plurality of air compressing devices and fixed at one of the two supporters 14,15 but is not rotating zo together with the rotatable hollow shaft 1;
a speed reducing device for driving the rotatable hollow shaft 1 oz' the zotated member at a low speed and can save many labor;
zs a seal members namely a rubber cap 20 having a central aperture that can provide for an end portion of the rotatable hollow shaft 1 to be inserted therein and can be bound to the end portion of the rotatable hollow shaft l so as to scat a very s~alall space of one of the bearing 17 of the two suppoztcrs and can restrict the air inside the receiving so container 19 to leak $om the very small space;
a starting 51N1tCh 1 s or controller 45;
a container 21 storing and eXlhanCiIlg a pressure of all Of the compressed 35 air; and a dame 22 providing for installing the l~wo supporters 14, 15 and the speed reducing device and the container :? 1 etc..
4o The rotated member (or for example, the rotatable hollow Shaft 1) is rotated by the speed reducing device not at a high speed but at an 24!Oo 99 ItOV 12:17 F~ CPA HK P:~TEVT ~jppg appropriately lvw speed and is therefore, not generating a centrifugal force and can make the piston 10, 11 of the each air compressing device to naturally impulse down for eompres,si~o~g air when the each air compressing device revolves to a position on or about to the vertical line _ The rotatable shaft 1 is providing not only for installing the hollow short pipe 12 or 13 of the each air compressing device, also for connecting the bottom end of the cylinder of the each air compressing device so a$ to install each of the plurality of au~ compressing devices on its to circumference and is providing for receiving then for discharging out all of the compressed air to the receiving container 19 from the end portion of Its hollow portion and is providing for the plurality of air compressing devices tv be driven and rotated by the speed reduciuag device.
is The plurality of air compressing devices arc installed to the rotatable hollow shaft 1 along radial director arid in a form of spoke-like shape, then to together revolve around the shaft following the rotation of the rotatable hollow shaft 1 and are respecltively attracted by the gravity and naturally to impulse down to coxxlpress aur.
The solid, long aztd very weighty piston 10, 11 of the each am compressing device is a solid piston and is weighty and not a hollow piston as a conventional piston, and is inside the long cylinder.
as The air compressor according to the itwention further includes: the eacli air compressing device, as it is brought to rotate by the rotation of the rotatable member (for instance, the rota~table hollow shaft 1) or the rotated member and rotates the rotatio~a shaft one circle, and has the function that is able to impulse down and to compress air two times since the solid, so long and very weighty piston 10 or 11 of the air compressing device is able of being attracted by the gravity and naturally to impulse down and to compress air by the gravity and not necessary to use any external power or energy when the each air compressing device is respectively revolve around the shaft to a position on or about a lower end of the vertical line.
35 Each long cylinder 2 of the each air compressiuag device further comprises a conveying pipe 23 or 24 for conveyuo.g vut a compressed air to a lower air chamber of the long cylinder then t.o discharge the compressed air with the short pipe 12 or 13 of the each air compressing device.
4o The two air intakes are respectively located at the two ends of the long cylinder (air chamb~:r) of the each air compressiuag device and are t 3 - a ~ a a riu.v 1 t : 1 r r .i~ - - c; Y.-~ ~ Y .~11 h.v i ~Q 0 0 i respectively formed by an aperture 25 or 26 and a first or second valve 27 or 28 having a proper weight and locatE:d beneath the aperture 25 or 26 namely located inside the long cylinder, whereby not only the second valve 28 can automatically close to restrict the discharge of the compressed air, and the first valve 27 c;an automatically open toward the inside of the long cylinder and to allow the natural air outside to be attracted into the long cylinder when the each. air compressing device is respectively revolve to a position vn or about the lower end of the vertical line and when the piston impulses down to compress the natural air, but 1 o also, the valve 27 can automatically close to restrict the discharge of the compressed air, and the valve 28 can aui:omatically open toward the inside of the long cylinder and to allow the natural air outside to be attracted iuato the long cylinder when the each air compressing device z~espectively revolves to a position on or about the 'upper end of the veztical line and is when the piston IO or 11 impulses down to compress the natural air.
A hollow portion of the short pipe 12 ~or 13 v~ the each air compressing device respectively has a cone valve 2!~ which is its air inlet, it is larger than its outlet (that is in-pumping hole 30), particularly, it has an elastic 2o thin piece 3.1 in front of the in-pumping; hole 30, and can be pushed open when the cone valve 29 is pumping .air, so the cone valve 29 is only allowing the each aiz compressing device respectively to pump air into the rotatable hollow shaft 1 but not allowing the air to retract. In another word the cone valve 29 is a one-way valve .and only allowing air to discharge 2s but not allowing the air to retract.
The conveying pipe 23 or 24 of the each air compressing device has respectively a smaller cone valve 32 having its function as that of the cone valve 29 and a smaller elastic thin piece 3 3 having its function as that of 3o the elastic thin piece 31, namely the conveying pipe 23 or 24 has a smaller one-way valve having its function as that of the cone valve 29, so it opens only at the each of air compressing devioe respectively revolves to a position on or about the lower end of tlhe vertical line but not allowing the compressed air enters into an upper air cliamber of the long cylinder of the 35 each aiz coxnpreSSmg device.
The cone valve 29 can restrict the compressed air only to be pumped into the rotatable hollow shaft 1 but not allowed the air to retract, also, it can reduce the sound caused by the imypulse of the solid, long and very 4o weighty piston of the each air compressing device when the solid, long and very Weighty piston 10 or 11 of t:he each the air compressing device 2~i0o 99 )t0\ 12:18 F.~ CPS HK P.~TE~T ~OU~
impulses down to compress alr.
The rotatable hollow shaft 1 comprises means for connecting t,rro smaller hollow pipes 1 A, 1 B respectively to hwo ends of a larger and shorter hollow pipe 4 or other larger and shorter hollow member 1 C so as to insert and to coz~z~.ect the short pipe 12 or 13 of the each of the air compressing device to the circumference of the larger and shorter hollow member 1C
a~ad to install the each of air compressing device thereto. The rotatable hollow shaft 1 comprises: its first end portion 1D that is sealed (this end i o portion 1 D is not connected to the receiving container 19). Two ends of the rotatable hollow shaft 1 are respectively installed at the two supporters 14, 15 which respectively have the seal-type bearing 16, 17 so can be driven and rotated easily by the speed reducing device, and in turn to rotate the each air compressing device. The seal-type bearings 16, 17 are i s respectively instahed on an upper end oi~ each of the two supporters 14, 15 .
The other one end portion 1 E of the rotatable hollow shaft t is inserted in the receiving container 19 and to discharge or convey out all of the coznprcssed air to the reeei.ving contailier 19 then to be provided fOr the user for use.
The end poztion 1 E of the second end a~f the rotatable hollow shaft 1 has a cone valve 34 having the function as that of the cone valve 29 and an elastic thin piece 3 5 having the function as the elastic piece 31 so it can only restrict all of the co~oo~.pressed air i:o be pumped into the container Z
as but not allowed the air to retract.
As shown in Figs. 1 and 2, the receiving container 19 is combined with the other end portion lE of the rotatable hollow shaft 1, namely, the annular shape flange 19A of the opening of a notch in the receiving container 19 is so connected together with an annular flange 36.A. of a bearing housing, namely, a trough like socket 36. The: trough like socket 36 lies a central aperture 36B providing for the compressed air to discharge ftom the rotatable hollow shaft 1 and to pass arid enter into the receiving container 19.
Provided between the annular shape fkange 19A of the reeeiviuag container 19 and the flange 36A of the trough like socket 36 is a washer 19B, the washer is able of preventing the compressed air ~rom leaking. The trough like socket 36 is providing for inlaying thereinto a seal-type bearing 17 of a.o the one of the two supporters 14, 1.5 so that the container 19 does not rotate fohowing the rotation of the rot:atable hollow shaft 1 but can receive _Ei_ 2~l~Oo 99 3ZOV 12:1& F.~ CP.~ HK P.vTEVT ~UU9 and store all of the compressed air respectively conveyed out from the short pipe 12 or 13 of the each air compressing device then can provide for discharging the compressed air to be stored in the container 21 so as to be provided for the user for use.
The very small space 17A of the seal-type bearing 17 is located between an outside circumference of a central hole of a cap 17B of the Seal-type beating 17 and an outside circumference; of a central hole of one side of the seal-type bearing 1? and is sealed by a trough like rubber cap 20. The trough like rubber cap 20 has a central '.hole that can provide for the end portion lE of the rotatable hollow shaft 1 to be inserted thereinto and has a flange 20A that can be connected to the flange 36A of the trough like socket 36 and fixed thereto.
is The central hole of the trough like rubber cap 20 is properly and tightly bound on an outside circumference of the other end portion lE of the rotatable hollow shaft 1 and therefore;, can prevent the compressed air from leaking.
2o The first end of the short pipe for e:~ample 12 or 13 of the each air compressing device is respectively connected to the cetral portion of the lower end of the long cylinder of the each air compressing device and the second end of the short pipe 12 or 1=S is inserted into and connectedly installed on the circumference of the larger and shorter hollow member 1 C
2s of the rotatablc hollow shaft 1 so as to iFlx and install each air compressing device and to discharge the compressed air into the rotatable hollow shaft 1.
Tlic each air compressing device further comprises two groups of cushion 3o devices 39, 40 for reducing the impulse force of the piston 10 or 11 so as to reduce sound produced by the impulse of the piston 10 or 11 when the piston impulses down tv compress the; air. Also, the height of one of the two groups of cushion devices 39, 4.0 should be appropriate such that some of the compressed air can be retained inside the long cylinder of the 35 each air compressing device, hence;) the retained compressed air can reduce the impulse force of the piston and to an extant reduce the sound produced by the piston when the piston impulsing'down for compressing the air to an extent. The two groups of cushion devices are respectively of rubber cushions or air cushions or compress springs or oil cushions.
with the aid Of a motor 37, the speed reducing device drives a pulley 38 of _7.-24i 06 99 )tOV 12: 19 F:lx CP.~1 HIi P:?.TE\T i~J 010 a smaller size, which in turn draws a belt 42 and drives a pulley 41 of a larger size, whereby the speed reducing device is not only enable the rotatable hollow shaft 1 to rotate at an appropriately low speed and to drive the plurality of air compressing devices to revolve and to let the piston of the each air compressing device respectively to be attracted by the gravity and to impulse down to compress air by the gravity and without the eternal power or energy, the; speed reducing device also has a very large force that enable the rotatable hollow shaft 1 to rotate but by only little power (little electricity). The; larger pulley 41 is many tinges ~ o larger than the smaller pulley 3 8 even larger than the pulley 41 shown in Fig. 1. The speed reducing device is driven to rotate by means of any other power. The speed reducing device is a driving device of labour saviza.g anal cycling demice.
is Th.e means for driving the speed reducing device of the air compressor of the present invention further includes a small pneuzoatic motor 43 (please see dotted line portions within the motor 37) whicli is driven by the air pumped into the container 21 beforelr~and, thereby completely without using any external power or energy, particularly, because the plurality of 2o air compressing devices are not necessarily rotating at a high speed so only by using the speed reducing device and with only a little power, therefore, the small pneumatic motoz~ 43 is using only a very small quantity of the compressed air, so large quantities of all of the compressed air generated from the plurality of aiz~ compressing devices are able of zs en~largi.~.g the very small quantity of the real demand of the small pneumatic motor 43 and able of exceeding large quantities. The container 21 has a pipe 44 controlled by a control calve 45 (that is an actuating switch) and can supply the very small quantity of the compressed air to the small pneumatic motor 43.
Due the above designs, the air compressor of the present invention is able to continuously compress air to generate a large quantity of compressed ai,r then to provide for the user for use and to get essential power by using only the gravity and the very little power (little electricity) to drive the 3s zlrotor 37 of the speed reducing device; or by using only the gravity and the very small quantity of the compressedair, to drive the small pneumatic motor 43 of the speed reducing device.
The receiving container 19 has a pipe 46 that can convey out all of the 4o compressed air to the container 21.
_g..
« ; U7 as .uU.v li:la r.~~ - - - - ~Y.-~ liri Y.~lh\T I~O11 The plurality of air compressing devices are very firmly connected together by a combining ring 47 after th.e each air compressing device is installed on the rotatable hollow shaft 1.
The container 21 comprises an adjustable; exhauster 48 so flint the user can discharge some of the compressed our inside the container 21 when necessary so as to regulate and contzol t:he pressure of the compressed air inside the container 21 to a signi~~cant degree.
io A combining ring 47 having a starting handle 49 provides for the user's hand to rotate the zotatable hollow shaft 1 so as to drive the plurality of air compressing devices to revolve around the shaft so that the each air compressing device respectively comprE;sses air into the container 21 and stores therein then to supply air to actuate the small pneumatic motor 43 to is continuously run and to drive the rotatable hollow shaft 1 or rotated zxiember 1 to continuously rotate anal to drive the plurality of air compressing devices to respectively revolve.
The solid, long and very weighty piston of the each air compressing zo device further comprises a piston zing having a function as that of the conventional piston.
Tlle solid, long and very weighty piston and the long cylinder of the each air coziaprcssing device are respectively made to a shape including a 2s quadrangle.
The air compressor of the present invention further comprises a small convex (so small that it is similar to a scmispherical protruding) controlling jut 50, installed in the concave portion inside the long cylinder 3u of the each air compressing device, that can automatically protrude slightly outward or backward for controlling the solid, long and very weighty piston of the air compressing device to impulse down only as the piston revolves to a position on or about the vertical line, that is able to control the solid. long and very weightr,~ piston not to i~oapulse down before 3s it reaches a position on or about the v~er~ical line) For matching the small convex controlling jut 50, the edges of the two ends of the solid, long and very weighty piston of the each air c~ompz~essing device are respectively formed in the shape of an arc, so that not only the solid. long and very weighty piston can easily press and pass the small convex controlling jut 40 50 and can impulse down to compress air when it revolves to the upper end of the vertical line, but also can easily retract to its o~nigxnal position to 2:1i Oo - 99 ~tOV 12 : 20 F.~~ - CP.~ HH P:~TE1T iEfJ 012 impulse down and compress air again when the solid, long and very weighty piston rcvolYCS to the lower end of the vertical line.
The container 21 comprises a pressure meter 52 and an exhauster 53 providing for the user to use the compressed air inside the container 21.
According to the second embodiment of the air compressor of the present invention, it further comprises several means for properly extending and eDlarging the rotatable hollow shaft or th~~ rotated member shown in Fig. 2, and installing at least two groups even more gxoups of the plurality of air compressing devices 54, 55, 56, 57, 58 to the extended or enlarged rotatable hollow shaft or the zotated melaber 59 (as shown in Fig, 3), and enhancing the power of the speed reducing device and to enlarging the volumes of the receiving container 19 aLid the container 21, and extending is the frame 22 more longer until it reaches. the base portion 22A etc. so as to generate much more quantities of compressed aiz. As shown in Fig. 3. the air cozzipressor of the second embodiment of the present invention further comprises some links 59A, 59B to link the combining ring 47 of each of the at least two groups or more groups ~of the plurality of air compressing 2o devices 54,55,56,57,58 so as to more strongly fix the two groups or mote groups of the plurality of ais compressing devices.
The f=ame 22 comprises several holes 6fl or 61 that can be pzvvi.ded for the user for inserting a bolt and for fixing the air compressor of the present 25 invention.
3u The optimum implementation o~ the invention other than as shown in fig.
1 comprises of the plurality of air compressing devices are installed to the rotatable hollow shaft 1 and driven at an appropriately low speed by the speed reducing device and to together revolve around a shaft following the rotation Of the rvtatablc hollow shaft ll (that is to rotate together with the 35 rotation of the rotated member), and to be respectively attracted by the gravity and naturally to impulse down for compressing the natural air by the gravity and to generate a large quantity of compressed air when each of the plurality of air compressing de'riccs respectively revolves around a shaft to a position on or about to a vertical line, the plurality of aix compressing devices are iz~,stalled with. even more groups (as shown in Fig.
2) so as to generate much more quantity of eompzessed air. And the -1()-~-~~u~ as uu.v l~:tu r.a3. --. - ~i~.~1 Hh P.~TE\T ~I013 rotatable hollow shaft 1 is rotated at an appropriately low speed by the speed reducing device that generating a power by a rnvtor or by a small pneumatic motor which is driven by a very small quantity of air inside the container 21 pumped thereinto beforehand.
Tlie air compressor of the present invention is able of naturally to compressing a natural air by using only very little power or electricity, even by only a very small quantity of the compressed air to generate a much more large quantity of compressed air to provide essential power.
This widely industrial application is appreciated.
is
The present invention relates to an air compressor, particularly to, an air compressor having a plurality of air compressing devices respectively able ~ o of naturally to compress air and to generate a large quantity of compressed air but requires only a very little power.
Pzevious conventional air compressor is necessary to expend much electricity, therefore, it is necessazy t:o improve the conventional air compressor or to develop new energy or power.
The present invention provides an air compressor having a plurality of air compressing devices zespectyvely able of naturally compressing natwcal air and generating a large quantity of compressed aiz' but requiring only very little power to be provided to users for use and to get essential power.
The present invention provides an aix compressor having a plurality of air compressing devices respectively capable of naturally compressing a o natural air and generating a lau~ge quantity of compressed air but requiring only a very little power.
The plurality of air compressing devices are installed to a rotatable/rotated member and to together revolve therewith around the shaft following the 3s rotation of the rotatable/rotated member and to respectively and naturally irapulsc down to compress air.
a~o Fig. 1 is a side view of the first Embodiment of the air compressor _1_ t~~ u~ as Wu.v lt:lo r:~3 -- -t,Y:-~ Hri Y.-alt..\1 according to the present of invention.
Fig. 2 is enlarged side view section of a tc'ough like member providing for a bearing to inlay and a hollow shaft borne via the bearing and a rubber cap having a central hole providing for covering an outside side of the bearing and providing for an end portion of the hollow shaft to be inserted therein and a container receiving and storing the compressed air come from the hollow shaft etc. of the air compressor of the present of invention.
to Fig. 3 is a side view of a second etnbodi~ment of the air compressor of the pzesent of invention.
~5 As shown in Fig. 1, the air compressor of present invention comprises:
a plurality of air compressing devices which arc respectively attracted by the gravity and naturally to impulse down for compressing natural air by the gravity;
a rotatable/rotated member (for example a rotatable hollow shaft 1) providing for installing the plurality of air compressing devices and z5 discharging all of the compressed .air compressed by the plurality of air compressing devices:
the plurality of air compressing devices. 2,3,4,5,6,7,8,9 arc installed to the rotatablc hollow shaft 1 or the rotated member and to together revolve 3o around a the sliaft following the rotation of the rotatable hollow shaft 1, and are respectively attracted by the gravity and naturally to impulse down for compressing natural air by the gravity and to generate a large quantity of compressed air to be provided to user for use and to get essential power when each of the plurality of air ss compressing devices respectively revolves around the shaft to a position on or about a vertical line (vertical position);
the each of the plurality of air compressing devices comprises a long cyliuader (a long air chamber denoted by reference numbers 40 2,3,4,5,6,7,8,9) and a solid, long and very weighty piston 10 or 11 (an appropriately long and weighty F~iston) inside the long cylinder and -z-t~~ua as 5lu.v m:t, r.~ t,r.~1 ri1~ r.~lh\1 - ~l]UU~
can impulse down to compress the natural air by the gravity only and without using any power, two ai.r intakes 2 respectively can automatically open/close to allow/rcstrict the natural air entering the long cylinder of the each au compressing device; and s a short pipe 12 or 13 and ethers constructed for installing the each air compressing device and conveying out the coznprcssed air compressed via tb.e each air compressing device, and for restricting the compressed air to discharge only at a restricted quantity for generating an appropriate high pressure, then to discharge the io .compressed air:
two supporters 14, 15 which have respectively a seal-type bearing 16, 17 and are respectively to support two ends of the rotatable hollow shaft 1 or the rotated member and to allow the rotatable hollow shaft 1 or the x5 rotated member to rotate;
a receiving container 19 for receiving and containing all of the coz~apressed air compressed via the each of th.e plurality of air compressing devices and fixed at one of the two supporters 14,15 but is not rotating zo together with the rotatable hollow shaft 1;
a speed reducing device for driving the rotatable hollow shaft 1 oz' the zotated member at a low speed and can save many labor;
zs a seal members namely a rubber cap 20 having a central aperture that can provide for an end portion of the rotatable hollow shaft 1 to be inserted therein and can be bound to the end portion of the rotatable hollow shaft l so as to scat a very s~alall space of one of the bearing 17 of the two suppoztcrs and can restrict the air inside the receiving so container 19 to leak $om the very small space;
a starting 51N1tCh 1 s or controller 45;
a container 21 storing and eXlhanCiIlg a pressure of all Of the compressed 35 air; and a dame 22 providing for installing the l~wo supporters 14, 15 and the speed reducing device and the container :? 1 etc..
4o The rotated member (or for example, the rotatable hollow Shaft 1) is rotated by the speed reducing device not at a high speed but at an 24!Oo 99 ItOV 12:17 F~ CPA HK P:~TEVT ~jppg appropriately lvw speed and is therefore, not generating a centrifugal force and can make the piston 10, 11 of the each air compressing device to naturally impulse down for eompres,si~o~g air when the each air compressing device revolves to a position on or about to the vertical line _ The rotatable shaft 1 is providing not only for installing the hollow short pipe 12 or 13 of the each air compressing device, also for connecting the bottom end of the cylinder of the each air compressing device so a$ to install each of the plurality of au~ compressing devices on its to circumference and is providing for receiving then for discharging out all of the compressed air to the receiving container 19 from the end portion of Its hollow portion and is providing for the plurality of air compressing devices tv be driven and rotated by the speed reduciuag device.
is The plurality of air compressing devices arc installed to the rotatable hollow shaft 1 along radial director arid in a form of spoke-like shape, then to together revolve around the shaft following the rotation of the rotatable hollow shaft 1 and are respecltively attracted by the gravity and naturally to impulse down to coxxlpress aur.
The solid, long aztd very weighty piston 10, 11 of the each am compressing device is a solid piston and is weighty and not a hollow piston as a conventional piston, and is inside the long cylinder.
as The air compressor according to the itwention further includes: the eacli air compressing device, as it is brought to rotate by the rotation of the rotatable member (for instance, the rota~table hollow shaft 1) or the rotated member and rotates the rotatio~a shaft one circle, and has the function that is able to impulse down and to compress air two times since the solid, so long and very weighty piston 10 or 11 of the air compressing device is able of being attracted by the gravity and naturally to impulse down and to compress air by the gravity and not necessary to use any external power or energy when the each air compressing device is respectively revolve around the shaft to a position on or about a lower end of the vertical line.
35 Each long cylinder 2 of the each air compressiuag device further comprises a conveying pipe 23 or 24 for conveyuo.g vut a compressed air to a lower air chamber of the long cylinder then t.o discharge the compressed air with the short pipe 12 or 13 of the each air compressing device.
4o The two air intakes are respectively located at the two ends of the long cylinder (air chamb~:r) of the each air compressiuag device and are t 3 - a ~ a a riu.v 1 t : 1 r r .i~ - - c; Y.-~ ~ Y .~11 h.v i ~Q 0 0 i respectively formed by an aperture 25 or 26 and a first or second valve 27 or 28 having a proper weight and locatE:d beneath the aperture 25 or 26 namely located inside the long cylinder, whereby not only the second valve 28 can automatically close to restrict the discharge of the compressed air, and the first valve 27 c;an automatically open toward the inside of the long cylinder and to allow the natural air outside to be attracted into the long cylinder when the each. air compressing device is respectively revolve to a position vn or about the lower end of the vertical line and when the piston impulses down to compress the natural air, but 1 o also, the valve 27 can automatically close to restrict the discharge of the compressed air, and the valve 28 can aui:omatically open toward the inside of the long cylinder and to allow the natural air outside to be attracted iuato the long cylinder when the each air compressing device z~espectively revolves to a position on or about the 'upper end of the veztical line and is when the piston IO or 11 impulses down to compress the natural air.
A hollow portion of the short pipe 12 ~or 13 v~ the each air compressing device respectively has a cone valve 2!~ which is its air inlet, it is larger than its outlet (that is in-pumping hole 30), particularly, it has an elastic 2o thin piece 3.1 in front of the in-pumping; hole 30, and can be pushed open when the cone valve 29 is pumping .air, so the cone valve 29 is only allowing the each aiz compressing device respectively to pump air into the rotatable hollow shaft 1 but not allowing the air to retract. In another word the cone valve 29 is a one-way valve .and only allowing air to discharge 2s but not allowing the air to retract.
The conveying pipe 23 or 24 of the each air compressing device has respectively a smaller cone valve 32 having its function as that of the cone valve 29 and a smaller elastic thin piece 3 3 having its function as that of 3o the elastic thin piece 31, namely the conveying pipe 23 or 24 has a smaller one-way valve having its function as that of the cone valve 29, so it opens only at the each of air compressing devioe respectively revolves to a position on or about the lower end of tlhe vertical line but not allowing the compressed air enters into an upper air cliamber of the long cylinder of the 35 each aiz coxnpreSSmg device.
The cone valve 29 can restrict the compressed air only to be pumped into the rotatable hollow shaft 1 but not allowed the air to retract, also, it can reduce the sound caused by the imypulse of the solid, long and very 4o weighty piston of the each air compressing device when the solid, long and very Weighty piston 10 or 11 of t:he each the air compressing device 2~i0o 99 )t0\ 12:18 F.~ CPS HK P.~TE~T ~OU~
impulses down to compress alr.
The rotatable hollow shaft 1 comprises means for connecting t,rro smaller hollow pipes 1 A, 1 B respectively to hwo ends of a larger and shorter hollow pipe 4 or other larger and shorter hollow member 1 C so as to insert and to coz~z~.ect the short pipe 12 or 13 of the each of the air compressing device to the circumference of the larger and shorter hollow member 1C
a~ad to install the each of air compressing device thereto. The rotatable hollow shaft 1 comprises: its first end portion 1D that is sealed (this end i o portion 1 D is not connected to the receiving container 19). Two ends of the rotatable hollow shaft 1 are respectively installed at the two supporters 14, 15 which respectively have the seal-type bearing 16, 17 so can be driven and rotated easily by the speed reducing device, and in turn to rotate the each air compressing device. The seal-type bearings 16, 17 are i s respectively instahed on an upper end oi~ each of the two supporters 14, 15 .
The other one end portion 1 E of the rotatable hollow shaft t is inserted in the receiving container 19 and to discharge or convey out all of the coznprcssed air to the reeei.ving contailier 19 then to be provided fOr the user for use.
The end poztion 1 E of the second end a~f the rotatable hollow shaft 1 has a cone valve 34 having the function as that of the cone valve 29 and an elastic thin piece 3 5 having the function as the elastic piece 31 so it can only restrict all of the co~oo~.pressed air i:o be pumped into the container Z
as but not allowed the air to retract.
As shown in Figs. 1 and 2, the receiving container 19 is combined with the other end portion lE of the rotatable hollow shaft 1, namely, the annular shape flange 19A of the opening of a notch in the receiving container 19 is so connected together with an annular flange 36.A. of a bearing housing, namely, a trough like socket 36. The: trough like socket 36 lies a central aperture 36B providing for the compressed air to discharge ftom the rotatable hollow shaft 1 and to pass arid enter into the receiving container 19.
Provided between the annular shape fkange 19A of the reeeiviuag container 19 and the flange 36A of the trough like socket 36 is a washer 19B, the washer is able of preventing the compressed air ~rom leaking. The trough like socket 36 is providing for inlaying thereinto a seal-type bearing 17 of a.o the one of the two supporters 14, 1.5 so that the container 19 does not rotate fohowing the rotation of the rot:atable hollow shaft 1 but can receive _Ei_ 2~l~Oo 99 3ZOV 12:1& F.~ CP.~ HK P.vTEVT ~UU9 and store all of the compressed air respectively conveyed out from the short pipe 12 or 13 of the each air compressing device then can provide for discharging the compressed air to be stored in the container 21 so as to be provided for the user for use.
The very small space 17A of the seal-type bearing 17 is located between an outside circumference of a central hole of a cap 17B of the Seal-type beating 17 and an outside circumference; of a central hole of one side of the seal-type bearing 1? and is sealed by a trough like rubber cap 20. The trough like rubber cap 20 has a central '.hole that can provide for the end portion lE of the rotatable hollow shaft 1 to be inserted thereinto and has a flange 20A that can be connected to the flange 36A of the trough like socket 36 and fixed thereto.
is The central hole of the trough like rubber cap 20 is properly and tightly bound on an outside circumference of the other end portion lE of the rotatable hollow shaft 1 and therefore;, can prevent the compressed air from leaking.
2o The first end of the short pipe for e:~ample 12 or 13 of the each air compressing device is respectively connected to the cetral portion of the lower end of the long cylinder of the each air compressing device and the second end of the short pipe 12 or 1=S is inserted into and connectedly installed on the circumference of the larger and shorter hollow member 1 C
2s of the rotatablc hollow shaft 1 so as to iFlx and install each air compressing device and to discharge the compressed air into the rotatable hollow shaft 1.
Tlic each air compressing device further comprises two groups of cushion 3o devices 39, 40 for reducing the impulse force of the piston 10 or 11 so as to reduce sound produced by the impulse of the piston 10 or 11 when the piston impulses down tv compress the; air. Also, the height of one of the two groups of cushion devices 39, 4.0 should be appropriate such that some of the compressed air can be retained inside the long cylinder of the 35 each air compressing device, hence;) the retained compressed air can reduce the impulse force of the piston and to an extant reduce the sound produced by the piston when the piston impulsing'down for compressing the air to an extent. The two groups of cushion devices are respectively of rubber cushions or air cushions or compress springs or oil cushions.
with the aid Of a motor 37, the speed reducing device drives a pulley 38 of _7.-24i 06 99 )tOV 12: 19 F:lx CP.~1 HIi P:?.TE\T i~J 010 a smaller size, which in turn draws a belt 42 and drives a pulley 41 of a larger size, whereby the speed reducing device is not only enable the rotatable hollow shaft 1 to rotate at an appropriately low speed and to drive the plurality of air compressing devices to revolve and to let the piston of the each air compressing device respectively to be attracted by the gravity and to impulse down to compress air by the gravity and without the eternal power or energy, the; speed reducing device also has a very large force that enable the rotatable hollow shaft 1 to rotate but by only little power (little electricity). The; larger pulley 41 is many tinges ~ o larger than the smaller pulley 3 8 even larger than the pulley 41 shown in Fig. 1. The speed reducing device is driven to rotate by means of any other power. The speed reducing device is a driving device of labour saviza.g anal cycling demice.
is Th.e means for driving the speed reducing device of the air compressor of the present invention further includes a small pneuzoatic motor 43 (please see dotted line portions within the motor 37) whicli is driven by the air pumped into the container 21 beforelr~and, thereby completely without using any external power or energy, particularly, because the plurality of 2o air compressing devices are not necessarily rotating at a high speed so only by using the speed reducing device and with only a little power, therefore, the small pneumatic motoz~ 43 is using only a very small quantity of the compressed air, so large quantities of all of the compressed air generated from the plurality of aiz~ compressing devices are able of zs en~largi.~.g the very small quantity of the real demand of the small pneumatic motor 43 and able of exceeding large quantities. The container 21 has a pipe 44 controlled by a control calve 45 (that is an actuating switch) and can supply the very small quantity of the compressed air to the small pneumatic motor 43.
Due the above designs, the air compressor of the present invention is able to continuously compress air to generate a large quantity of compressed ai,r then to provide for the user for use and to get essential power by using only the gravity and the very little power (little electricity) to drive the 3s zlrotor 37 of the speed reducing device; or by using only the gravity and the very small quantity of the compressedair, to drive the small pneumatic motor 43 of the speed reducing device.
The receiving container 19 has a pipe 46 that can convey out all of the 4o compressed air to the container 21.
_g..
« ; U7 as .uU.v li:la r.~~ - - - - ~Y.-~ liri Y.~lh\T I~O11 The plurality of air compressing devices are very firmly connected together by a combining ring 47 after th.e each air compressing device is installed on the rotatable hollow shaft 1.
The container 21 comprises an adjustable; exhauster 48 so flint the user can discharge some of the compressed our inside the container 21 when necessary so as to regulate and contzol t:he pressure of the compressed air inside the container 21 to a signi~~cant degree.
io A combining ring 47 having a starting handle 49 provides for the user's hand to rotate the zotatable hollow shaft 1 so as to drive the plurality of air compressing devices to revolve around the shaft so that the each air compressing device respectively comprE;sses air into the container 21 and stores therein then to supply air to actuate the small pneumatic motor 43 to is continuously run and to drive the rotatable hollow shaft 1 or rotated zxiember 1 to continuously rotate anal to drive the plurality of air compressing devices to respectively revolve.
The solid, long and very weighty piston of the each air compressing zo device further comprises a piston zing having a function as that of the conventional piston.
Tlle solid, long and very weighty piston and the long cylinder of the each air coziaprcssing device are respectively made to a shape including a 2s quadrangle.
The air compressor of the present invention further comprises a small convex (so small that it is similar to a scmispherical protruding) controlling jut 50, installed in the concave portion inside the long cylinder 3u of the each air compressing device, that can automatically protrude slightly outward or backward for controlling the solid, long and very weighty piston of the air compressing device to impulse down only as the piston revolves to a position on or about the vertical line, that is able to control the solid. long and very weightr,~ piston not to i~oapulse down before 3s it reaches a position on or about the v~er~ical line) For matching the small convex controlling jut 50, the edges of the two ends of the solid, long and very weighty piston of the each air c~ompz~essing device are respectively formed in the shape of an arc, so that not only the solid. long and very weighty piston can easily press and pass the small convex controlling jut 40 50 and can impulse down to compress air when it revolves to the upper end of the vertical line, but also can easily retract to its o~nigxnal position to 2:1i Oo - 99 ~tOV 12 : 20 F.~~ - CP.~ HH P:~TE1T iEfJ 012 impulse down and compress air again when the solid, long and very weighty piston rcvolYCS to the lower end of the vertical line.
The container 21 comprises a pressure meter 52 and an exhauster 53 providing for the user to use the compressed air inside the container 21.
According to the second embodiment of the air compressor of the present invention, it further comprises several means for properly extending and eDlarging the rotatable hollow shaft or th~~ rotated member shown in Fig. 2, and installing at least two groups even more gxoups of the plurality of air compressing devices 54, 55, 56, 57, 58 to the extended or enlarged rotatable hollow shaft or the zotated melaber 59 (as shown in Fig, 3), and enhancing the power of the speed reducing device and to enlarging the volumes of the receiving container 19 aLid the container 21, and extending is the frame 22 more longer until it reaches. the base portion 22A etc. so as to generate much more quantities of compressed aiz. As shown in Fig. 3. the air cozzipressor of the second embodiment of the present invention further comprises some links 59A, 59B to link the combining ring 47 of each of the at least two groups or more groups ~of the plurality of air compressing 2o devices 54,55,56,57,58 so as to more strongly fix the two groups or mote groups of the plurality of ais compressing devices.
The f=ame 22 comprises several holes 6fl or 61 that can be pzvvi.ded for the user for inserting a bolt and for fixing the air compressor of the present 25 invention.
3u The optimum implementation o~ the invention other than as shown in fig.
1 comprises of the plurality of air compressing devices are installed to the rotatable hollow shaft 1 and driven at an appropriately low speed by the speed reducing device and to together revolve around a shaft following the rotation Of the rvtatablc hollow shaft ll (that is to rotate together with the 35 rotation of the rotated member), and to be respectively attracted by the gravity and naturally to impulse down for compressing the natural air by the gravity and to generate a large quantity of compressed air when each of the plurality of air compressing de'riccs respectively revolves around a shaft to a position on or about to a vertical line, the plurality of aix compressing devices are iz~,stalled with. even more groups (as shown in Fig.
2) so as to generate much more quantity of eompzessed air. And the -1()-~-~~u~ as uu.v l~:tu r.a3. --. - ~i~.~1 Hh P.~TE\T ~I013 rotatable hollow shaft 1 is rotated at an appropriately low speed by the speed reducing device that generating a power by a rnvtor or by a small pneumatic motor which is driven by a very small quantity of air inside the container 21 pumped thereinto beforehand.
Tlie air compressor of the present invention is able of naturally to compressing a natural air by using only very little power or electricity, even by only a very small quantity of the compressed air to generate a much more large quantity of compressed air to provide essential power.
This widely industrial application is appreciated.
is
Claims (23)
1. An air compressor for compressing air by a natural power, characterized in that, said air compressor comprises compressing device that by the attraction of the gravity to attract an air compressing member of said air compressor to impulse down and to naturally compress air, for compressing air and for providing compressed air for use.
2. An air compressor for compressing air by a natural power, characterized in that, said air compressor comprises:
a rotatable member;
a plurality of air compressing devices bring mounted on said rotatable member and being able to rotate together with said rotatable member, and being able of attracted by the gravity to naturally impulse down to comprises air; and a conveying out or storing member for conveying out or storing the compressed air compressed by said air compressing devices, said compressed air being compressed by said air compressing devices as said air compressing devices rotating together with said rotatable member at a very low speed such that when said air compressing devices revolve to a position on or about a line vertical to the horizontal line, said air compressing member of said air compressing devices being able to naturally impulse down by the action of the gravity and compressing the natural air into compressed air to be provided for use.
a rotatable member;
a plurality of air compressing devices bring mounted on said rotatable member and being able to rotate together with said rotatable member, and being able of attracted by the gravity to naturally impulse down to comprises air; and a conveying out or storing member for conveying out or storing the compressed air compressed by said air compressing devices, said compressed air being compressed by said air compressing devices as said air compressing devices rotating together with said rotatable member at a very low speed such that when said air compressing devices revolve to a position on or about a line vertical to the horizontal line, said air compressing member of said air compressing devices being able to naturally impulse down by the action of the gravity and compressing the natural air into compressed air to be provided for use.
3. An air compressor for compressing air by a natural power, characterized in that, said air compressor comprises:
a rotatable member;
a plurality of air compressing devices being mounted on said rotatable member and being able to rotate together with said rotatable member, and being able of attracted by the gravity to naturally impulse down to compress air;
a speed reducing device being able for driving said rotatable member to rotate and rotating said air compressing devices together therewith at an appropriately low speed;
a conveying out or storing member for conveying out or storing the compressed air compressed by said air compressing devices, said compressed air being compressing by said air compressing devices as said air compressing devices rotating together with said rotatable member a very low speed such that when said air compressing devices revolve to a position on or about a line vertical to the horizontal line, said air compressing devices being able to naturally impulse down by the action of the gravity and compressing air into compressed air to be provided for the user for use.
a rotatable member;
a plurality of air compressing devices being mounted on said rotatable member and being able to rotate together with said rotatable member, and being able of attracted by the gravity to naturally impulse down to compress air;
a speed reducing device being able for driving said rotatable member to rotate and rotating said air compressing devices together therewith at an appropriately low speed;
a conveying out or storing member for conveying out or storing the compressed air compressed by said air compressing devices, said compressed air being compressing by said air compressing devices as said air compressing devices rotating together with said rotatable member a very low speed such that when said air compressing devices revolve to a position on or about a line vertical to the horizontal line, said air compressing devices being able to naturally impulse down by the action of the gravity and compressing air into compressed air to be provided for the user for use.
4. An air compressor as claimed in Claim 2, characterized in that, said air compressor having at least two or more said air compressing devices that are mounted on said rotatable member.
5. An air compressor as claimed in Claim 3, characterized in that, said air compressor having at least two or more said air compressing devices that are mounted on said rotatable member.
6. An air compressor as claimed in Claim 4, characterized in that, said at least two or more air compressing devices are mounted along the radial direction of said rotatable member, that is in a spoke like manner on said rotatable member, and said air compressing devices being rotated together with said rotatable member when said rotatable member is rotating.
7. An air compressor as claimed in Claim 5, characterized in that, said at least two or more air compressing devices are mounted along the radial direction of said rotatable member, that is in a spoke like manner on said rotatable member, and said air compressing devices being rotated together with said rotatable member when said rotatable member is rotating.
8. An air compressor as claimed in Claim 2 or 3 or 4 or 5 or 6 or 7, characterized in that, said rotatable member including a speed reducing device that is driven by a motor and rotates at an appropriately low speed.
9. An air compressor as claimed in Claim 2 or 3 or 4 or 5 or 5 or 7, characterized is that, said rotatable member including a speed reducing device that is driven by a pneumatic motor that needs only a very small quantity of compressed air to drive said speed reducing device to rotate at an appropriately low speed.
10. An air compressor as claimed in Claim 2 or 3 or 4 or 5 or 6 or 7, characterized in that, said rotatable member including a speed reducing device that is driven by a pneumatic motor and rotates at as appropriately low speed.
11. An air compressor as claimed in Claim 2 or 3 or 4 or 5 or 6 or 7, characterized is that, said rotatable member including a speed reducing device that is manually driven and rotates at an appropriately low speed.
12. An air compressor as claimed is Claim 2 or 3 or 4 or 5 or 6 or 7, characterized in that, said rotatable member including a speed reducing device that is driven by any other power and rotates at an appropriately low speed.
13. An air compressor as claimed in Claim 2, characterized in that, said air compressor further comprises:
said rotatable member is a rotatable shaft;
said air compressing device is constructed to include an air chamber, that is a cylinder and a piston mounted inside said air cylinder, said piston being a compressing member for compressing natural air;
said air chamber including an air inlet, said air inlet not only being able to be automatically opened for the air to enter said air chamber when said air compressing device revolves to a position on or about a lower end of a line perpendicular to the horizontal line and said piston impulsing down to compress said natural air, and said air inlet also being able to be automatically closed for restricting said compressed air in said air chamber from leaking when said air compressing devices rotates to a position on or about an upper end of said line perpendicular to the horizontal line; end compressed air receiving container for receiving that air convey out from said air compressing devices.
said rotatable member is a rotatable shaft;
said air compressing device is constructed to include an air chamber, that is a cylinder and a piston mounted inside said air cylinder, said piston being a compressing member for compressing natural air;
said air chamber including an air inlet, said air inlet not only being able to be automatically opened for the air to enter said air chamber when said air compressing device revolves to a position on or about a lower end of a line perpendicular to the horizontal line and said piston impulsing down to compress said natural air, and said air inlet also being able to be automatically closed for restricting said compressed air in said air chamber from leaking when said air compressing devices rotates to a position on or about an upper end of said line perpendicular to the horizontal line; end compressed air receiving container for receiving that air convey out from said air compressing devices.
14. An air compressor as claimed in Claim 3, characterized in that, said air compressor further comprises:
said rotatable member is a rotatable shaft;
said air compressing device is constructed to include an air chamber, that is a cylinder, and a piston mounted inside said air cylinder, said piston being a compressing member for compressing natural air;
said air chamber including an air inlet, said air inlet not only being able to be automatically opened for the natural air to enter said air chamber when said air compressing device revolves to a position on or about a lower end of a line perpendicular to the horizontal line and said piston impulsing down to compress said natural air, and said air inlet also being able to be automatically closed for restricting said compressed air in said air chamber from leaking when said air compressing devices rotates to a position on or about an upper end of said line perpendicular to the horizontal line; and compressed air receiving container for receiving that air convey out from said air compressing devices.
said rotatable member is a rotatable shaft;
said air compressing device is constructed to include an air chamber, that is a cylinder, and a piston mounted inside said air cylinder, said piston being a compressing member for compressing natural air;
said air chamber including an air inlet, said air inlet not only being able to be automatically opened for the natural air to enter said air chamber when said air compressing device revolves to a position on or about a lower end of a line perpendicular to the horizontal line and said piston impulsing down to compress said natural air, and said air inlet also being able to be automatically closed for restricting said compressed air in said air chamber from leaking when said air compressing devices rotates to a position on or about an upper end of said line perpendicular to the horizontal line; and compressed air receiving container for receiving that air convey out from said air compressing devices.
15. An air compressor as claimed in Claim 13 or 14, characterized in that, said rotatable shaft comprises a section of a larger diameter so as to facilitate the installation of said air compressing device and being able to facilitate the installation of a plurality of said air compressing devices.
16. An air compressor as claimed is Claim 13, characterized is that, said compressed air receiving container is combined with the end of said rotatable shaft but does not rotate together with said rotatable member, and is able to receive said compressed air conveying out from said rotatable shaft and coming from said air compressing devices.
17. An air compressor as claimed in Claim 14, characterized is that, said compressed air receiving container is combined with the end of said rotatable shaft but does not rotate together with said rotatable member, and is able to receive said compressed air conveying out from said rotatable shaft and coming from said air compressing devices.
18. An air compressor as claimed in Claim 13, characterized is that, said piston is a solid and very weighty piston, said piston being able to impulse down to produce a large force for compressing air when attracted by the gravity, hence said piston is not the conventional hollow piston.
19. An air compressor as claimed in Claim 14, characterized is that, said piston is a solid and very weighty piston, said piston being able to impulse down to produce a large force for compressing air when attracted by the gravity, hence said piston is not the conventional hollow piston.
20. An au compressor as claimed is Claim 14, characterized in that, said piston is a solid and very weighty piston, said piston being able to impulse down to produce a larger force for compressing air when attracted by the gravity, hence said piston is not the conventional hollow piston.
21. An air compressor as claimed in Claim 13 or 14 or 18 or 19, characterized in that, said piston is a long piston so as to make it very weighty.
22. An air compressor as claimed in Claim 13 or 14, characterized in that, said air compressing device further including devices being able to compress air two tithes, sad being able to impulse down by the attraction of the gravity when said air compressing device rotates to lie on or about a positions at both upper end and lower end of a line perpendicular to the horizontal line, so as said air compressing device having a function able to compress air two times in one rotation circle thereof.
23. An air compressor as claimed in Claim 2 or 3 or 4 or 5 or 6 or 7 ar 13 or 14, characterized in that, said compressor having at least two groups or more groups of said plurality of air compressing device and each group of the plurality of said air compressing device are respectively installed on said rotatable member so as to generate much more compressed air.
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Applications Claiming Priority (3)
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US75698096A | 1996-11-26 | 1996-11-26 | |
US08/756,980 | 1996-11-26 | ||
PCT/CN1997/000135 WO1998023861A1 (en) | 1996-11-26 | 1997-11-24 | Gas compressor |
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CA2273016A1 true CA2273016A1 (en) | 1998-06-04 |
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CA002273016A Abandoned CA2273016A1 (en) | 1996-11-26 | 1997-11-24 | Gas compressor |
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EP (1) | EP0942170A4 (en) |
JP (1) | JP2001504568A (en) |
KR (1) | KR20000069143A (en) |
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AP (1) | AP9901590A0 (en) |
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BR (1) | BR9713548A (en) |
CA (1) | CA2273016A1 (en) |
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US10357681B2 (en) | 2017-07-05 | 2019-07-23 | Steve W DAVISON | Zero G inertia exercise apparatus |
CN109973338A (en) * | 2017-12-27 | 2019-07-05 | 谢真仁 | Automatic operating device |
WO2020089959A1 (en) * | 2018-10-29 | 2020-05-07 | 株式会社ウスイ電業 | Motive force generating device, and motive force generating method |
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JPS56121881A (en) * | 1980-02-28 | 1981-09-24 | Masamitsu Kumagai | Power generation by gravity energy generator |
DE3434924A1 (en) * | 1984-09-22 | 1986-04-03 | Iris 5000 Köln Laufenberg | Method for the conversion of potential energy or heat energy into rotational energy (torque) or into conveying energy and apparatus for its implementation |
US4674281A (en) * | 1986-05-16 | 1987-06-23 | Kim Myung K | Method of power generation and its apparatus utilizing gravitation force and buoyancy |
EP0253385A3 (en) * | 1986-07-15 | 1990-04-04 | Ivanka Cvijovic | Automatic gravitational fluid compressor |
US4720976A (en) * | 1986-12-30 | 1988-01-26 | Myung Kyoon Kim | Method of power generation and its apparatus utilizing gravitation force and buoyancy |
WO1993008373A1 (en) * | 1991-10-25 | 1993-04-29 | Gosta Ingvald Hook | Rotary machine |
US5174235A (en) * | 1992-06-25 | 1992-12-29 | The United States Of America As Represented By The Secretary Of The Navy | Apparatus for pressurizing a submarine launch tube |
CN2198405Y (en) * | 1994-05-21 | 1995-05-24 | 田宝云 | Gravity driven plunger pump |
DE19633040A1 (en) * | 1996-08-16 | 1998-02-19 | Franz Julius Ewert | Method of for generating power and propulsion |
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1997
- 1997-11-24 BR BR9713548-8A patent/BR9713548A/en not_active IP Right Cessation
- 1997-11-24 CN CN97199795A patent/CN1092762C/en not_active Expired - Fee Related
- 1997-11-24 CA CA002273016A patent/CA2273016A1/en not_active Abandoned
- 1997-11-24 EA EA199900500A patent/EA000917B1/en not_active IP Right Cessation
- 1997-11-24 KR KR1019997004655A patent/KR20000069143A/en not_active Application Discontinuation
- 1997-11-24 WO PCT/CN1997/000135 patent/WO1998023861A1/en not_active Application Discontinuation
- 1997-11-24 EP EP97945722A patent/EP0942170A4/en not_active Withdrawn
- 1997-11-24 JP JP52410598A patent/JP2001504568A/en active Pending
- 1997-11-24 AP APAP/P/1999/001590A patent/AP9901590A0/en unknown
- 1997-11-24 AU AU51150/98A patent/AU5115098A/en not_active Abandoned
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1999
- 1999-05-25 NO NO992508A patent/NO992508L/en not_active Application Discontinuation
- 1999-05-26 OA OA9900111A patent/OA11122A/en unknown
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2002
- 2002-04-20 CN CN02118146A patent/CN1428507A/en active Pending
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Publication number | Publication date |
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CN1238028A (en) | 1999-12-08 |
EP0942170A4 (en) | 2000-11-08 |
WO1998023861A1 (en) | 1998-06-04 |
CN1092762C (en) | 2002-10-16 |
EA000917B1 (en) | 2000-06-26 |
BR9713548A (en) | 2000-01-25 |
KR20000069143A (en) | 2000-11-25 |
AP9901590A0 (en) | 1999-06-30 |
CN1428507A (en) | 2003-07-09 |
OA11122A (en) | 2003-04-04 |
NO992508D0 (en) | 1999-05-25 |
AU5115098A (en) | 1998-06-22 |
JP2001504568A (en) | 2001-04-03 |
NO992508L (en) | 1999-07-15 |
EA199900500A1 (en) | 1999-12-29 |
EP0942170A1 (en) | 1999-09-15 |
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