US3385475A - Container puncturing assembly associated with a pump and check-valve means - Google Patents

Description

x May 28, 1968 w. D. LOE 3,385,475 CONTAINER PUNCTURING ASSEMBLY ASSOCIATED WITH A PUMP AND CHECK-VALVE MEANS Filed Oct. 22, 1965 4 Sheets-Sheet 1 M44462 Q add May 28, 1968 w. o. LOE

CONTAINER PUNCTURING ASSEMBLY ASSOCIATED WITH A PUMP AND CHECK-VALVE MEANS 4 Sheets-Sheet 2 Filed Oct. 22, 1965 May 28, 1968 w. D. LOE 3,385,475

CONTAINER PUNCTURING ASSEMBLY ASSOCIATED WITH A PUMP AND CHECK-VALVE MEANS Filed Oct. 22, 1965 4 h heet s INVENTOR. M46466 2 (06' V Arzvz/vfrs May 28, 1968 w. D. LOE 3, 8

CONTAINER PUNCTURING ASSEMBLY ASSOCIATED WITH A PUMP AND CHECK-VALVE MEANS Filed Oct. 22, 1965 4 Sheets-Sheet-4 INVENTOR.

United States Patent 3,385,475 CONTAINER PUNCTURING ASSEMBLY ASSO- CIATED WITH A PUMP AND CHECK-VALVE MEANS Wallace D. Lee, Escondido, Caiif., assignor to Loe Industries, a corporation of California Filed Oct. 22, 1965, Scr. No. 592,099 6 Claims. (Cl. 22283.5)

ABSTRACT OF THE DISCLOSURE Manually operated apparatus in which a closed can may be placed for piercing such that its fluid contents, then vented to the atmosphere through filter means, may be pumped by a manually operated pump, through a fluid channel which includes a filter element, into the hydraulic system of aircraft to replenish the same. Such filter element is on the suction side of the pump and includes means whereby removal of the filter element results in automatic sealing of such fluid channel from the atmosphere. A check valve is interposed in such fluid channel between the outlet of the pierced can and the inlet to the filter element and a removable plug is placed in the fluid channel between the check valve and the filter inlet such that the plug may be removed and connections made to recirculate fluids through the filter element by such pump without contaminating the fluid re maining in the pierced can.

The present invention relates to means and techniques useful in dispensing and/or circulating fluids and has particular usefulness in apparatus for servicing hydraulic equipment, particularly when the fluid in such equipment is above atmospheric pressure.

Briefly, the apparatus described herein incorporates a suitable receptacle for a sealed can which is punctured in the process of mounting the can in the receptacle. Sealing means are provided whereby the contents of the punctured can remains uncontaminated. Manually operated pump means is effective to pump or dispense the fluid from the punctured can to equipment in which pressures above atmospheric pressure exist. Means are also provided whereby the pumping means may be used to produce a circulation of fluid through the equipment, without the circulated fluid contaminating the contents of the punctured can. Also, novel filter means are provided whereby the fluid so circulated is cleaned of contaminating particles, with such filter means also being effective in normal operation wherein the pump instead of circulating fluids is used to dispense fluid from either an initially sealed can or from a receptacle filled with bulk fluid. Another constructional feature of the apparatus is that it is readily adapted to dispense fluids either from an initially sealed can or from a specially constructed receptacle which, when used, is used in lieu of the sealed can.

It is therefore a general object of the invention to provide improved apparatus of the character described.

A specific object of the present invention is to provide apparatus of this character which is particularly useful in dispensing fluids which are supplied in sealed cans.

Another specific object of the present invention is to provide an improved apparatus of this character that incorporates novel can puncturing and sealing means.

Another specific object of the present invention is to provide apparatus of this character which is adaptable either for dispensing fluid from a container or for circulating fluids through equipment, with or without the equipment being at pressures greater than atmospheric pressure.

Another specific object of the present invention is to provide apparatus of this character which eliminates contamination of the fluid by particles in the air and such that the hydraulic fluid need not and is indeed not exposed to the atmospheric air, the container from which the fluid is dispensed being sealed at all times when not in use.

Another specific object of the present invention is to provide apparatus of this character capable of supplying at all times clean hydraulic fluid under pressure in a range extending, for example, from zero to 3000 lbs. per square inch.

Another specific object of the present invention is to provide an improved filter construction particularly useful in apparatus of this character.

Another specific object of the present invention is to provide improved apparatus of this character which is small, compact and relatively inexpensive and rugged, considering in particular the various uses and advantages resulting therefrom.

The features of the present invention which are believed to be novel are set forth with particularity in the appended claims. This invention itself, both as to its organization and manner of operation, together with further objects and advantages thereof, may be best understood by reference to the following description taken in connection with the accompanying drawings, in which:

FIG. 1 is a view taken substantially as indicated by theline 11 in FIG. 2.

FIG. 2 is a view taken as indicated by theline 22 in FIG. 1.

FIG. 3 is a view taken substantially as indicated by the line 3-3 in FIG. 2.

FIGS. 4 and 5 are sectional views taken substantially as indicated by the corresponding lines 44 and 55 in FIG. 6.

FIG. 6 is a view taken substantially as indicated by the line 66 in FIG. 5.

FIGS. 7, 8 and 9 each illustrate a different modification.

The apparatus as disclosed includes abase member 10 which is in the form of a special casting with threeleg portions 10A, each ofsuch leg portions 10A having a rubber foot MB.

The base portion 11A of acan holder 11 is secured to thebase member 10, as illustrated in FIGS. 4, 5 and 6, using three bolts 113. Each of such threebolts 11B extends through a corresponding circular raised portion or boss 10C and through an apertured portion of the can base portion 11A, the last mentioned apertured portion being countersunk to receive the countersunk head bolt 11D whereby a fiat surface is presented for a flatcircular sealing pad 12.

As seen in FIG. 5, thispad 12 is centrally apertured to accommodate apointed post 14 used to puncture the central portion of acan 15, thepost 14 being formed with a threadedshank portion 14A and a flanged portion 14B, and is also provided with a plurality of radially extending apertured portions or openings 14C, all of which are in communication with a blind bore in thepost 14 so that liquid from thecan 15 may flow through such openings 14C and into a channel or bore 11C formed in the base support portion 11A. A sealing ring 14D is interposed between the flange portion 14B and the base portion 11A; and also, as shown in FIG. 5, an O-ring 11B is disposed between an annular grooved portion of the base portion 11A to provide a fluid-tight connection between the base portion 11A and a vertically extendingbase portion 10D. Thisbase portion 10D formed as a part of a casting is provided with two intersectingbores 10E and 10F which, as shown in FIG. 5, are in communication with thebore 11C and which are closed by threaded plugs L and 106, respectively. Also, as seen in FIG. 5, thecasting 10 is provided with abore 10H which intersects thebore 10E and provides a communication to afilter housing 16 containing acheck valve 17, thefilter housing 16 being secured to thepump housing 50, as illustrated in FIGS. 1 and 3, wherein a plurality of bolts 16A pass through a flanged portion of thepump housing 50 and are threaded in thefilter housing 16.

Thefilter housing 16, as seen in FIGS. 3 and 5, includes the previously mentioned check valve 17 (FIG. 5), acheck valve 18 and a valve 19 which is illustrated as being in its open position, but which automatically closes when and as thefilter housing section 20 is screwed out of itshousing 16.

Thecheck valve 17 includes aball 17A normally pressed by the coil compression spring 17B into engagement with a valve seat formed in theshort sleeve 21 threaded inhousing 16. This valve .17 is generally within apassage 22 communicable with thepassage 10H, and thehousing 16 is provided with an annular recessed portion within which an O-ring seal 24 is disposed to seal the connection between passageways 101-1 and 22. Thisother passageway 22 intersects with thepassageway 25 which, as shown in FIG. 3, is closed by aplug 26 and which extends to anannular chamber 27 within which a piston-type valve element 28 is free to move. Thevalve element 28 is normally urged downwardly by acoil compression spring 28A whereby the valve 19 tends to close, such valve 19 being defined by an annular tapered portion of thepiston 28 and a cooperating tapered portion of atubular insert 29 threaded within thehousing 16.

Thehousing section 20 is threaded within thehousing 16 with an O-ring seal 30 therebetween, and within thehousing section 20 there is disposed atfilter element 32 which is in the general form of a drum having anopen end 32A and an annular side wall 32B in the form of a filter screen. The closedend portion 32C of thefilter 32 contacts acoil compression spring 34 that serves to urge and maintain the previously mentioned valve 19 open and to squeeze an O-ring seal 36 between a flanged portion of theinsert 29 and filterend 32A. Thefilter end 32A carries a centrally disposed post 32D which contacts the spring-urgedvalve element 28 to move it upwardly against the action ofspring 28A. Thus, thespring 34 is stronger than thespring 28A for these purposes.

This post portion 32D is suitable apertured to provide a passageway therethrough whereby fluid in the open condition of the valve 19 may flow through the filter as indicated by thearrows 38.

It will be observed that the flow of fiuid through thefilter 32 is first inwardly into the filter and then outwardly whereby larger solid particles in the fluid may be trapped and retained within the confines of thefilter 32.

Thehousing section 20 is in communication with achannel 42 in the nature of a bore,such bore 42 being intersected by abore 43 within which thecheck valve 18 is disposed. Thischeck valve 18, as seen in FIG. 3, includes aball 18A pressed by spring 18B into engagement with a seat formed internally of thefilter housing 16, such spring 18B being seated against a hollow threaded insert 45 threaded inhousing 16. Aflat gasket 46 is interposed between thefilter housing 16 and thepump housing 50.

Bolts 51 extend through thefilter housing 16 and are threaded in the pump housing and thus serve to squeeze thefiat gasket 46 and provide a seal between these two housing elements. Bolts 16A also perform the same function of securing the filter housing.

Thepump housing 50 is provided with threeears 50A, 50B and 500, each of which is secured by a corresponding bolt to the upwardly extending portion of thebase casting 10. Apiston 52 carrying an O-ring seal 53 is used to pump fluid fromchannel 42, throughcheck valve 18 and through check valve 55 to theoutlet 56,such outlet 56 being illustrated as a threaded opening into which apipe 57 may be threaded.

. The rod 52A ofpiston 52 extends through a bearing orbushing 60 which is retained by an externally threadednut 61, threaded within thehousing 50 to retain the bearing orbushing 60 against a shouldered internal portion of thehousing 50. O-ring seals 64, 65 recessed within the hearing orbushing element 60 and engaging respectively the piston rod 52A and an internal circular wall of thehousing 50 serve to seal the unit.

The upper end of piston rod 52A is pin-connected to one end of alink 67 having its other end pin-connected to alever 69, thelever 69 being pivotally mounted on a pair ofarms 50E (FIG. 5) extending upwardly and formed integrally with thecylinder housing 50. Thislever 69 is actually in the form of a cylindrical socket adapted to receive one end of apipe 73 which is normally retained in a cylindrical socket portion of thebase member 10, but which may be removed from such retained condition and inserted into the socket lever '69, as indicated by dotted lines in FIG. 1,, whereby manual operation of the pump may thus be facilitated, as described later under the heading Operation.

The can base portion 11A is formed with a circular base portion defined by upwardly extending circular portions 11F (FIGS. 2 and 6) that serve generally as a guide for the can during its downward movement during its puncturing by the centrally disposed pointed post 14 (FIG. 5 such circular base portion being interrupted, .as shown, to provide anaccess opening 11G, as indicated in FIGS. 2 and 6. Rising above the base portion 11A and secured to the same are three vertically extendingplates 11H, 11], 11K, theplates 11H and 11] being diametrically disposed and being extended, as seen in FIG. 1, to provide a support at their upper ends for upper can puncturing and sealing means 75. The third strap 11K, as seen in FIG. 2, extends upwardly slightly less than the height of thecan 15 and is interconnected to the support straps 11H and 11] by circumferentially extending straps 11L and 11M to brace the same,such support straps 11H and 11] also being braced by two other circumferentially extending straps UN and HP which are secured to the upwardly extending portion of the base casting 10.

The upper can puncturing and sealing means 75 includes ahandle member 76 pivotally mounted on the vertically extending support 11]. For this purpose, thehandle member 76 is formed with a sleeve portion 76A through which apivot pin 76B extends, the ends of thepivot pin 76B being secured to spaced ear portions on the support member 11]. The other end of thehandle member 76 is engageable with a pivotedlatch member 78 which, as seen in FIG. 2, is pivotally mounted on the support member bypivot pin 80. Movement of thislatch member 78 is confined between the pair of spacedstop members 82 and 83 on thesupport member 11H and such latch member has acam portion 78A and a hook portion 7 8B engageable with thehandle 76 which, as seen in FIG. 2 in cross-section, is in the nature of a bar that enters an upper bifurcated portion of thesupport member 11H to first cam thelatch member 78 in a clockwise direction in FIG. 2 after which thehook portion 78B may then engage thehandle portion 76 to hold it in its latched condition.

Mounted on an intermediate portion of thehandle member 76, as seen in FIGS. 1 and 5, is a can puncturing and sealing means, the puncturing means being provided by the sharp edges of a bevelled cuttingtube 86 and the sealing means being provided by therubber seal 87 surrounding the tube. Both thetube 86 andrubber seal 87 are mounted on an annularflanged portion 91 of arod 89 which is slidably mounted in thehandle member 76. Acoil compression spring 90 is disposed between theflanged portion 91 and an internal shouldered portion of thehandle member 76. In the unlatched condition of thehandle 76, the movement of therod 89 within the handle is limited by engagement of the large portion of the rod with the handle. Acheck valve 92 is disposed within theflanged portion 91, thecheck valve 92 being constructed generally, as previously described, and serving to allow atmospheric air to enter the top of the can as the fluid is being dispensed from the can to prevent any substantial subatmospheric pressure being developed inside the punctured can when and as fluid is dispensed therefrom.

Operation 0 FIGURES l-9 Initially there is no can 15 in the apparatus, but a can 15 may be inserted by pivoting thehandle member 76 to allow thecan 15 to enter its receptacle, such receptacle being provided generally by the curved or arcuate base portion 11F of the can support 11 which retains and guides the lower end of the can so that its central portion may be pierced by the pointedpost 14. This piercing operation is preferably accomplished using the pivotedhandle 76 which is then pivoted to its latched position shown in FIGS. 1, 2 and 5. During the latching of thehandle 76, both the bottom and the top of the can are punctured and the ap'ertured portions of the can are sealed against leakage. Thelever extension 73 is then removed from its storage position shown in the drawings and placed in the dotted line position in FIG. 1 to facilitate operation of the manually operable pump which when operated causes thepiston 52 to move up and down to cause flow of fluid from the can to the outlet opening 56 to occur through the following path, namely, through thepost 14,channels 11C, F, 10E, through thecheck valve 17, through thechannels 22 and 25, through the valve 19 which is, of course, open at this time, through thefilter 32, through theconduit 42 andcheck valve 18 and through the check valve 55 to theoutlet opening 56. During the dispensing of the fluid from the can air enters the top of the can through thecheck valve 92 to vent the tank to atmospheric pressure.

In those conditions wherein it is desired to circulate fluids, for example, for conditioning the same, the plug 26 (FIG. 3) may be removed and it then provides an inlet opening 26A, such inlet opening 26A being connected to a container (not shown) containing such fluids and the outlet opening being also in communication either with this same or a diiferent container. Operation of the pump under these conditions results in circulation of the fluid through thefilter 32, with the solid portions of the fluid being retained within the filter. During such circulation of fluids from and back to the same or to a diflerent container, as desired, fluids are prevented from entering thecan 15 because thecheck valve 17 permits fluid flow only from thecan 15 into thechannel 22 and prevents reverse flow.

The apparatus is also adapted to dispense bulk fluid, i.e. fluids which are not necessarily supplied in sealed cans and which thus do not require puncturing, and for this purpose the arrangement shown in FIG. 7 may be incorporated in the apparatus after first removing the threadedpost 14 to allow the threadednipple 100 of thecontainer 101 to be threaded into the threadedopening 14A. Thecontainer 101 is provided with acentral opening 102 through which the cuttingtube 86 may enter without damage tosuch container 101. Anannular seal gasket 104 surrounds theopening 102 and is squeezed between thecontainer 101 and therubber pad 87 to thereby provide a seal at the upper end of thecontainer 101 when thehandle 76 is latched in position, as described above.

Preferably the apparatus is fitted with apressure gauge 110 which is in communication with theoutlet opening 56 viaport 56A in FIG. 3 to provide an indication of the pressure within the pipe, tubing orhose 57 connected, for example, to a pressurized control to which the fluid is to be dispensed or through which fluid is to be circulated. The gauge may thus be used in many different circumstances to indicate initial, final and/ or circulating fluid pressure.

The assembly may be serviced by removing a used filter element and replacing the same by a new filter element 32 (FIG. 3). This involves unscrewing thefilter housing 20 after whichelement 32 may be removed. When thefilter housing 20 is thus being unscrewed the valve element 19 is allowed to seat under the influence ofspring 28A to prevent fluid flow from thecan 15. This safety feature prevents fluid flow when either the unit is assembled without a filter element or during removal and replacement of the filter element.

It will be appreciated that thecheck valve 17 may be relocated so as to be embodied in the construction of thecan piercing post 14.

Also an air filter may be incorporated in the upper can piercing means such that all air required for venting, i.e., anticavitntion, is required to flow through such filter for removal of undesirable elements such as, for example, dust, dirt and moisture.

Further, thehandle 73 may be made in telescopic sections for space conservation and convenience in which case one end of the same may be permanently secured insocket 69 if desired.

Further, for outdoor operations the structure may incorporate a shield, like an umbrella structure, over the top of the can to prevent, for example, rain water from accumulating on the top of thecan 15.

In the modification shown in FIGURE 8, the fluid flow through thefilter element 132 is now radially inwardly through thefilter element 132 instead of radially outwardly as in the embodiment shown in FIGURE 3. Thebore 22 is now in communication with a bore which in turn is in communication with anannular space 126 and the inside ofremovable filter casing 20. Thefilter element 132 is normally urged upwardly by spring between thecasing 20 and thefilter element 132 in the manner illustrated in FIGURE 3, alike spring 34 being used for that purpose. In such case thefilter element 132 is pressed against the O-ring seal 36 and against the action of aWeaker spring 128A (corresponding to the spring 23A in FIGURE 3).

The fluid after leaving thefilter 132 flows upwardly through a pipe-like element 143 threaded in thefilter housing 116,such element 143 having a central bore in communication with a pl-uurality of radially extendingbores 143A at the lower end.Such bores 143A are, in the absence of thefilter element 132, closed by a sleeveli-ke valve element which is normally urged in a downward direction by spring 128 against the lower flanged portion 133B of pipe-like element 143. For this latte-r purpose, the sleeve-like element 150 is provided with an internalflanged portion 150A that seats against theflanged portion 143B in the closed position of thevalve 143, 150, to achieve a safety feature described above in connection with thevalve 19, 29.

In the modified arrangement shown in FIGURE 9, the same incorporates a self-aligningcan cutting element 86 like the cutting element having thesame numeral 86 in FIGURE 5. In this case theassembly 191 that incorporates theair valve 92 of FIGURE 5 has a threadedstud 189 which is threaded in aball 200 seated in a spherical seat internal of thebar 76, such ball 192 being pressed downwardly on such seat by aspring 193 having its upper end engaging aplug 194 and its lower end engaging the ball 192 to thereby provide an arrangement wherein theassembly 191 self-aligns itself with respect to unevenness in the top ofcan 15 particularly in the latter stages of cutting the same.

While the particular embodiments of the present invention have been shown and described, it will be obvious to those skilled in the art that changes and modifications may be made without departing from this invention in its broader aspects and, therefore, the aim in the appended claims is to cover all such changes and modifications as fall within the true spirit and scope of this invention.

I claim:

1. In apparatus of the character described, a base structure; receptacle retaining means on said base structure; pump means having an inlet and an outlet; conduit means in said base structure and having one of its ends terminating in a receptacle maintained by said retaining means and having the other one of its ends in communication with said pump means inlet; filter means having an inlet and an outlet; said filter means being in said conduit means between said one and the other end thereof; said retaining means including manually operated means for releasably securing a receptacle in said retaining means; receptacle venting means eifective upon operation of said securing means to vent a receptacle retained by said retaining means; check valve means between said one end of said conduit means and said inlet of said filter means and functioning to prevent reverse flow from said filter means inlet to said one end of said conduit means; and a closable opening in communication with said inlet of said filter means and the downstream side of said check valve means.

2. Apparatus as set forth inclaim 1 in which said filter means includes a removable filter element; and valve means controlling the flow of fluid to said filter means inlet; said valve means incorporating means for automatically closing said valve; and said filter means including means for disabling the last-mentioned means when said filter element is in position in said filter means.

3. Apparatus as set forth inclaim 1 in which said one end of said conduit means is a threaded opening in said base structure within which a tubular can puncturing means is threaded.

4. Apparatus as set forth inclaim 1 in which said one end of said conduit means includes a threaded open ing in said base in which a nipple portion of a receptacle is threaded.

5. Apparatus as set forth inclaim 1, in which said one end of said conduit means comprises a tubular can puncturing means for puncturing the lower end of a can; and said receptacle retaining means includes means movably mounted on said base structure, the last-mentioned means incorporating an assembly that punctures the top end of the can to vent said can to the atmosphere.

6. An arrangement as set forth inclaim 5 in which said assembly is swivelly mounted on said movably mounted means.

References Cited UNITED STATES PATENTS 1,544,922 7/1925 Midley 222-88 1,557,861 10/1925 Moreida 222-82 1,615,581 1/1927 Harris 222-88 2,008,807 7/ 1935 Williams 222-83.5 2,129,971 9/1938 Smith ZZZ-83.5 2,504,683 4/1950 Harnley 222-189 2,644,430 7/1953 Lang 222-83.5 X 2,743,018 4/ 1956 Belgarde 184-6 2,744,656 5/1956 Hope 222-82 2,822,962 2/ 1958 Poitras 222-189 X 2,928,499 3/1960 Nallinger 184-6 2,945,591 7/1960 Pall 210-234 2,983,336 5/1961 Kolbe 184-6 3,110,422 11/1963 Beck 222-83.5 3,149,753 9/ 1964 Forsyth 222-189 X 3,283,907 11/1966 Whiting 210-234 WALTER SOBIN, Primary Examiner.

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