US3570704A - Pressure cookers - Google Patents

Abstract

Pressure cooker with a simple and easily operable valve system which includes a stopper with an external counterweight that can be optionally lifted with a manually rotatable cam system. A twopart food carrying grid may be inserted which has means for supporting the same a certain distance from the inner bottom of the cooker. A deformable, annular gasket is used between the lid and the inwardly turned rim of the cooker vessel, the gasket having a projection, which is in intimate sealing contact with portions of the lid and the rim, except for an outer side surface which has freedom of expansion when the gasket is deformed in its sealing position. The projection may be given different transitional engaging areas.

Description

United States Patent 1111 3,570,704

[72] Inventor Ber iaminJuanRoson 3,055,536 9/1962 Dieny 220/44 Au. R.SaenzPena 730,BuenosAires, 3,166,332 1/1965 Olson 277/209X l N sA-gesnigna FOREIGN PATENTS PP- 621291 12/1962 Bel 277/207 g1um 1 PM d 969,871 /1950 France 277/207 1 1 Pateme 7 1,030,792 3/1953 France 220/55 1 c 548,280 9/1956 Italy 220/25 568,036 10/1957 Italy 220/ 4 g f g igggfi g 281,092 5/1952 Switzerland 22o/55 1 c) Primary Examiner-Walter A. Scheel 52 u.s.c1 220/44, Assistant Examiner John M'Be" B65d5l/l6 Att0rneyTab T. Thein Field of Search 99/450, 234 5 449, 450, 418, 3391 340; 220/441 ABSTRACT: Pressure cookerwith a simple and easily opera- 1 55 126/ (Inqulred), 1169;277/207, 209 ble valve system which includes a stopper with an external counterwei ht that can be 0 tionall lifted with a manuall [56] References Cited rotatable c m system. A twognart fogd carrying grid may b:

UNITED STATES PATENTS inserted which has means for supporting the same a certain 222,296 12/1879 McMurray 99/450 distance from the inner bottom of the cooker 99/4 A deformable, annular gasket is used between the lid and 99/4 the inwardly turned rim of the cooker vessel, the gasket having 77/ 07 a projection, which isin intimate sealing contact with portions 2 of the lid and the rim, except for an outer side surface which 220/ X has freedom of expansion when the gasket is deformed in its 220/4 X sealing position. The projection may be given different transi- 220/ tional engaging areas.

43 a 11 -11 a 1 1 V8 PATENIEIJ MAR] s ISTI SHEET F 3 F/Of/ g g IIQQW w A 2e 42 4/ 40 Q 6 t 4/ 2e 3e Z: 364 HQ: 3 4/ 40 L 4/ 2a /9 rnnssunn onus The present invention relates to pressure cookers.

It is a well known fact that the common cooking pot works with an uneven heat distribution, since heat at the bottom thereof is greater than at higher levels.

Advantages of pressure cookers over the common pot reside in the fact that internal temperature is uniform throughout the former, and said temperature is invariable during cooking whatever the amount of heat applied may be, provided the cookers valve allows proper exhaust of excess steam.

The several known pressure cookers are subject to a series of disadvantages, as follows:

I. Care must be taken before using the pressure cooker that the valve be perfectly clean;

2. During the cooking, the user is forced to watch the operation of the pressure cooker, because when steam begins to escape through the valve, heat must be reduced.

3. To open prior art pressure cookers, cold water must be poured over them to condense the steam and thus annul the pressure inside.

4. Since to open the pressure cooker the user must first douse it with cold water, it becomes impossible for him to open it readily at any moment during the cooking process, either to control the process or to add materials requiring less cooking time than those originally loaded.

5. As uncovering the pressure cooker is a bothersome task, the cook must control cooking time as exactly as possible by means of previously worked out timing tables, for if the pressure cooker is opened before cooking is completed, it shall be necessary to heat it up again.

6. Furthermore, despite any amount of precautions, there is always the danger of obstruction of the valve (either in the valve passage, the labyrinth, or both).

All the above-described disadvantages arethe reasons why the pressure cooker has not been widely adopted by housewives; understandably they are unwilling to put up with the inconveniences in the handling and the risks involved in the use of prior art pressure cookers.

It is therefore an object of this invention to provide a pressure cooker wherein the above described disadvantages have been eliminated.

Since obstruction of the valve passages is impossible in the inventive cooker, decompression is allowed, without need of pouring cold water over it, by the simple expedient of raising the valve.

It is another object of the present invention to provide a self-cleaning valve system for pressure cookers, which does not require any special care in use.

Still another object of this invention is to free the user from having to watch the pressure cooker operation.

By means of the valve system of the invention, the user need not keep watch over the pressure cooker awaiting the initial issue of steam through the valve. When steam begins to flow out, the user may lower the heat to save fuel, but there is no absolute need to do this. On the other hand, one has the certainty that if there is no discharge of steam it is because the internal pressure has not yet reached the suitable value, while with conventional pressure cookers the user is always assailed by the doubt that steam may not be issuing due to an obstruction in the valve.

It is a still further object of the present invention to provide a valve system having a valve passage wherein no solid particles can become lodged because the valve stem will prevent it.

It is another object of the present invention to provide a pressure cooker which can be safely used for cooking in moving vehicles.

According to the present invention a valve is provided which works in perfect equilibrium, and at the same time is prevented from being shot out, in the case of a sudden violent movement of the vehicle. This is accomplished by the provision of a simple retaining device which, while allowing the valve full freedom for operative movement, prevents its being thrown out by violent lurching of the vehicle.

It is still another object of the invention to provide a pressure cooker with a valve system wherein, even when the valve passage is obstructed, the valve may be expelled by the cookers internal pressure.

In the valve system of the present invention any possible but unlikely obstruction would be momentary; since the valve member, if seated, is at all times in contact with the internal pressure through the intermediary of the valve stem. If two exhaust valves are provided in the, cooker according to the invention, the degree of safety is further enhanced.

It is a still further object of the present invention to provide a pressure cooker with a valve system which allows decompression of the cooker and elimination of steam inside without need of cooling the cooker and causing condensation of the steam contained therein. 1

By means of the valve system of the invention, steam is discharged in 30 seconds, at most, through the valve passage, thus allowing a prompt uncovering of the pressure cooker, which on being covered back will regain in another 30 seconds the normal internal pressure. Furthermore, since steam is exhausted from the cooker, no condensation in droplets falling. on the food will ensue.

A further object of this invention is to provide a lid having a gasket which will take up all deformations that may be produced in the internal under surface of the cookers intumed flanged edge, while compensating for deformation of the flat surface of the gasket and preventing sticking thereof to said under surface of the flanged edge when the lid is removed.

It is finally a still further object of the invention to provide a food-carrying grid for pressure cookers, which covers the whole circular inside surface of the cooker, said grid being formed in two separate semicircular halves of perforate sheet metal, capable of being supported at a convenient distance from the bottom, each semicircle having support means providing suitable positioning thereof.

With the purpose of rendering the invention clearly understandable, the following description is given with reference to preferred examples of embodiments, with a purely illustrative but not limitative intention, it being hereby expressly stated that the scope of the present invention is defined in the claims attached hereto. In the drawings:

FIG. 1 is a top plan view of a pressure cooker according t the present invention; 3

FIG. 2 is a sectional view taken along line ll-Il in FIG. I, wherein the dotted lines show the manner of placing the food carrying grid;

FIG. 3 shows a partial section of the valve system, when the valves are seated;

FIG. 4 shows a section similar to FIG. 3,'wherein the valves are in their raised position to allow decompression of the cooker;

FIG. 5 illustrates a longitudinal section of one of the valves in the pressure cooker according to the present invention;

FIG. 5a is a sectional view of the valve stem, with three exemplary grooves therein, taken along line Va-Va of FIG. 5;

FIG. 6 is a sectional view similar to FIG. 3, wherein the retaining device has been applied for using the pressure cooker in moving vehicles; 7

FIG. 7 shows a partial sectional view of the airproof seal of the pressure cooker of the present invention wherein the improved gasket has been installed;

FIG. 8 is a cross section of the improved gasket alone, used in the pressure cooker of the present invention, as shown in FIG. 7;

FIGS. 3a, 8b and 8c show alternative embodiments of the resilient, deformable, annular gasket as shown in FIG. 8;

FIG. 9 illustrates a perspective view of the food carrying grid, as seen from below; and

FIG. 10 shows a top plan view of the grid illustrated in FIG. 9.

The pressure cooker of the present invention comprises a cooking vessel indicated generally at 11, provided with a handle l2 and a grip l3 diametrically opposed to handle 12. The

' peripheral lip orlid 14.

Lid 14 has alid handle 19 having anend portion 20 fixed diametrically acrosslid 14 and an opposite end portion 21 extending beyond the periphery oflid 14 and projecting over handle 12 of cooking vessel 1 1.

Handles 12 and 19, respectively carry means for effecting pressure sealing ofperipheral lip 15 oflid 14 with the downfacing surface of in-turned flangedrim 18 of vessel 11. In the embodiment herein illustrated said means are comprised of apin 22 projecting upwards from handle 12, the free end of said pin engaging a centering recess 23, which acts as a fulcrum forhandle 19, which at the end of portion 21 thereof carries a swingingring 24, capable of locking into ahook 25 provided at the free end of handle 12 when lid handle 19 is resiliently flexed downward as pressure is applied on portion 21 thereof.

Handle 19 is secured tolid 14 by a pair ofvalves 26, of which only one will be described, as the two are similar.Valve 26 comprises atubular body 27 with aperipheral flange 28 provided at the outer end thereof, said tubular body being disposed through respectivecoaxial openings 29 and 30 provided inhandle 19 andlid 14 in such a manner that flange 28 bears against saidhandle 19, while thetubular body 27 of the valve is secured at its other end by means of anut 31 tightly screwed on a threadedouter surface 32 oftubular body 27.

Valve 26 further comprises a stopper member ofvalve passage 33 intubular body 27, said stopper member comprising avalve stem 34 having a diameter somewhat smaller than the internal diameter ofvalve passage 33 and being longer than the overall length oftubular body 27, valve stem 34 having at the upper end thereof afrustoconical valve seat 35 integral and concentric with astopper member body 36 acting as a counterweight.

FIG. 5 constitutes a sectional view taken in FIG. 5, in upward direction and along line Va-Va, across thestem 34 but omitting the surroundingflange 28 for the sake of clarity. Three grooves are shown in this figure, as a matter of example, identified by numeral 34a; the valve seat and thestopper member 35, 36, respectively, are also visible, together with the bottom surface of therespective valve 26. This arrangement allows the passage of fluid between the stem and the valvular passage, along the grooves 34a provided in the stem.

Saidstopper member body 36 is of a weight corresponding to the working pressure in the pressure cooker and in accordance with the cross section area ofvalve passage 33, whereby when pressure inside the cooker reaches a value which is higher than the pressure exerted by the weight ofstopper member body 36 andvalve stem 34, said excess pressure raisesbody 36 and stem 34 a slight distance to allow escape of inside pressure in cooking vessel 11, along and throughstem 34,tubular passage 33 andvalve seat 35.

To vary the working pressure in the cooker, thestopper member body 36, which is preferably cylindrical, may be formed with twosections 36a and 36b, the upper surface ofsection 360 having acylindrical projection 37 fitting into a mating bore 38 disposed in section 361).

Handle 19 carries on one lateral edge arod 40 mountedadjacent valves 26, and arranged rotatably throughclips 41 fixed to handle 19, saidrod 40 being provided, in correlation withvalves 26, with earns 42 located underneathstopper member body 36 of eachvalve 26, capable of engaging the under-surface of saidbodies 36 and raising them whenrod 40 is rotated by means of anarm 45 located at the rod end adjacent portion 21 ofhandle 19, said arm being rotated counterclockwise from its nonoperative position shown in FIG. 3 to its operative position shown in FIG. 4, whereby valve seats 35 are lifted off engagement withrespective valve passages 33.

The assembly is completed by asynthetic material plug 43 arranged in a bore throughhandle 19 andlid 14, betweenvalves 26.

In the embodiment illustrated in FIG. 6, handle 19 has a threadedbore 50 located betweenvalves 26, wherein a threadedpin 51 is received, said pin being integral with a retaining member forvalves 26, comprising a shapedelement 53 that on its horizontal portion is integral withpin 51, while its free ends project into respectivehorizontal arms 54 extending partially overbodies 36 ofvalves 26 at a certain distance therefrom, sufficient for allowing normal raising thereof under the action of internal pressure within the cooking vessel, but preventing valve stems 34 from being pushed out fromrespective valve passages 33.

Gasket 16, according to the present invention as illustrated in FIGS. 7 and 8, is formed by a resilient body generally in the form of a ring, of a configuration adapted to the configuration oflid 14 of the cooking vessel wherefor it is designated.

Body 60 comprises a substantially flatupper surface 61, aninner side surface 62, anouter side surface 63 of lesser width thaninner side surface 62, and a lower surface 64 of lesser width thanupper surface 61, thesurfaces 63 and 64 defining arecess 65 inbody 60, formed bysurface portions 66 and 67, respectively.

The improvement of the present invention lies fundamentally in acontinuous projection 68 extending fromupper surface 61, closer toouter side surface 63 than toinner side surface 62. In the embodiment illustrated, saidprojection 68 is formed with a verticalinner wall 69, preferably perpendicular toupper surface 61, and an inclinedouter wall 70 forming an acute angle 71 with innervertical wall 69 and anobtuse angle 72 withupper surface 61, as clearly shown in FIG. 8.

It is important to note that in the described preferred embodiment,inner wall 69 andouter wall 70 form with upper surface 61 a triangular prism, this circumstance allowing flexing ofprojection 68 when it is pressed against down-facingsurface 17 of in-turned flanged rim l8 and matching of saidprojection 68 with said planar surface, conforming to slight differences the latter may present.

It can be seen from FIG. 8 that theprojection 68 is formed by theinner wall 69 and theouter wall 70, joining each other by their upper edges, to form a transitional area 71 which sealingly engages the down-facingsurface 17 of therim 18. It is important that theprojection 68 has the describedouter side surface 63 which is given freedom of expansion when thegasket 16 is deformed in its sealing position, the remaining surfaces of the gasket being in intimate sealing contact with the peripheral edge orlip 15 of thelid 14, on the one hand, and the aforementioned down-facingsurface 17, on the other hand.

FIGS. 8a, 8b and 8c show alternative embodiments of thegasket 16 appearing in FIG. 8, in the form ofrespective gaskets 16a, 16b and 16c. The upper surfaces 61, inner side surfaces 62 and the outer side surfaces 63 are substantially the same as forgasket 16. Thesegaskets 16a, 16b and 16c have respectively a flattransitional area 71a, a rounded area 71b and a triangular transitional area 711:, as shown, flanked by respectiveinner walls 69a, 69b and 690, as well asouter walls 70a, 70b and 70c. It will be seen from these figures that the continuous projections on the flat upper surfaces of the respective gaskets 16a, 16b and 160 placed in thelid 14 are formed by the respective inner sidewalls and the outer sidewalls joining each other, forming-thetransitional areas 71a, 71b and 710, respectively.

A food-carryinggrid 79 illustrated in FIGS. 2, 9 and 10 comprises twoseparate sheet members 80 and 81 each having a semicircular form and which when placed adjacently with theirstraight edges 82 and 83 in contact define a surface corresponding in configuration and dimensions with the configuration and dimension of the bottom of cooking vessel 11 as determined by the sidewalls thereof, for which it is desired to apply saidgrid 79.

Round edges 84 and 85 ofrespective sheet members 80 and 81 have down-turnedflanges 86 and 87, respectively, extending all along said edges. Each of saidsheet members 80 and 81 further has respective support means 83 and 89, each of said support means being arranged close to the round edge at the point most remote from the respective straight edge and at a point equidistant from the vertices formed by respective ends of the round and straight edges of eachsheet member 80 and 81.

in the exemplary embodiment illustrated, support means 88 and 89 comprise cylindrical projections having semispherical bearing ends, but any similar shape as desired may be employed for the support means.

Operation of the pressure cooker of the present invention is remarkably very simple and has all the advantages listed in the opening passages of this specification.

in fact, whenlid 14 is placed in cooking vessel 11, downfacingsurface 17 of in-turnedflanged rim 13 flexesprojection 68 ofgasket 16 in such a manner as to seat verticalinner wall 69 against adjacentupper surface 61, slightly deforming the latter, whileinclined wall 70 abuts against down-facingsurface 17 together with the remainder ofupper surface 61. It is quite obvious that upon release oflid 14, after cooking has taken place, and on pressure against down-facingsurface 17 being removed,projection 68 andside surface 63 will tend to return to their original pressure-free positions, thereby detachingupper surface 61 from said down-facingsurface 17.

In the case where, due to knocks received by the pressure cooker, deformations or distortions have occurred indownfacing surface 17, such uneveness will be compensated for byprojection 68, which tends to return to its erect position when pressed bylid 14 against down-facingsurface 17.

The pressure cooker user, after hermetically closing same, places stopper members of respectivelyvalves 26 in such a manner that stem 34 of each stopper member slides withinvalve passage 33 of the respectivetubular body 27, whereby if any foreign matter or impurity should obstruct the valve passage, it will be dislodged therefrom upon insertion ofstem 34. This feature is of paramount important, since it constitutes one of the main features giving the valves of the present invention their self-cleaning character.

The pressure cooker being now ready for use, with the materials to be cooked placed inside and the lid secured in position, it is placed on the stove burner for suitable heating, whereby pressure inside the cooker increases as internal temperature rises, until a pressure of, for example, about l0 p.s.i. (7 g/mrn2, grams per square millimeter) is reached, this being the more usual working pressure in pressure cookers.

When said internal pressure is reachedvalves 26 are ready to start operating. That is to say, as' soon as internal pressure increases beyond said value, rise ofvalves 26 and their respective stems 34 occurs, thus liftingvalve seats 35 from engagement with the upper edge of respectivetubular bodies 27, whereby escape of excess pressure in the form of steam is allowed,

In the assumed case that said spaces between stems 34 andtubular valve passages 33 are obstructed by food particles,valve 26 will not become isolated from the internal pressure and therefore will not be annulled in its effect, as in prior art pressure cookers, but instead pressure inside the cooking vessel will act on the lower end of valve stems 34, blowing the stopper member upwards when the pressure reaches a level above the working pressure, such as a 10 to 13 p.s.i. pressure.

Valves known up to date may become obstructed on account of the three following reasons:

a. small particles of food may become lodged in the valve passage, obstructing outflow of steam;

b. a food particle, without entering the valve passage, may adhere to the passage opening, obstructing outflow of steam;

c. when steam drags with it foam caused by starches or flours (rice, noodles, cereals, dried legumes, etc.), the valve labyrinth frequently becomes obstructed.

Regarding point a. -ln the valve of the present invention, food particles cannot entervalve passage 33 becausestem 34 prevents them from entering thereinto.

Regarding point b. -When a food particle is carried up to the opening ofvalve passage 33, it cannot remain adhered to the opening because the downward projecting end of valve stem 34 prevents this from happening. For such as obstacle to adhere to the opening ofvalve passage 33, it would have to push the stem upwards and to such an effect a pressure higher by 30 percent would be necessary than the pressure existing at that moment, but the latter cannot increase while the opening ofvalve passage 33 is not stopped.

Regarding point 0. -lt is a well known fact that in prior art valves, foam does not start by obstructing the valve passage, because while mixed with steam it flows easily. The problem starts when the foam leaves the valve passage and reaches the labyrinth, wherein the foam tends to adhere to hot surfaces in the labyrinth, forming a layer that quickly thickens and obstructs outflow of steam intermittently at the beginning, a complete obstruction frequently following said initial intermittent stage.

In the valve of the present invention, this type of obstruction cannot occur, because thevalve 26 has no labyrinth at all: once the foam has passed thevalve passage 33, it is out of the valve system. It should be noted that thevalve passage 33 is not only one third the length of what other systems need.

It is clearly stated that the inventive pressure cooker employs two exhaust valves not in quest of a greater safety (this being unnecessary since the valve of the present invention is impossible to obstruct) but to obtain a faster decompression of the cooker.

Once the food in the pressure cooker of the present invention is cooked, for decompression thereof it is only necessary to rotaterod 40, thereby causingcams 42 to engage the underside of respectivestopper member bodies 36, and upon continuation of rotation of the rod, until a quarter turn thereof is completed, said stopper members are raised, thereby liftingvalve seats 35 from the upper end of respectivetubular bodies 27 and allowing outflow of pressure in the form of steam in a very short time, approximately 20 seconds, after which the pressure cooker, its internal pressure totally released, may be uncovered easily.

If it is desired to steam cook a dish or food-stuff, thefood carrying grid 79 is placed inside the cooker, inserting first either of theseparate sheet members 80 or 81 and placing it in its position on the bottom of cooking vessel 11, in such 'a manner that flangeportion 86, whereround edge 84 forms an angle withstraight edge 82, and support means 88, maintainsheet member 80 in perfect balance, thesecond sheet member 81 being thereafter inserted withstraight edge 83 thereof abuttingstraight edge 82 ofsheet member 80, and being equally supported byflange portion 87 at the angle formed by round edge andstraight edge 83 and by respective support means.

It support means 88 and 89 were not provided,sheet members 80 and 81, instead of remaining in their suitable position, would tend to overlap one over the other asflanges 86, 87 would slide down the curved bevel which the juncture of the cooker bottom and sidewalls necessarily form.

Having thus described certain preferred embodiments of the present invention, it is desired clearly to state that the inventive object is not limited to said embodiments but on the contrary various modifications of form and/or detail may be introduced therein, which fall within the scope of the invention as recited in the claims attached to this specification.

lclaim:

1. A pressure cooker comprising a vessel having an inwardly turned flanged free rim, a lid for forming a sealing closure when applied against said rim, and at least one gravity valve means, the latter including a valve passage arranged in said lid in communication with the inside of said vessel, stopper means for said valve passage, including counterweight means disposed above said lid, said stopper means being capable to be lifted off its seat in said valve passage under action of the internal pressure in said vessel, against the weight exerted by said counterweight means, said stopper means further including a valve stem passing through said valve passage and extending therebeyon-d, said counterweight means being attached to the outer end of said stem, the latter as well as said counterweight means being permanently acted upon by said internal pressure, at least one fluid passage being provided between said stem and the internal wall of said valve passage to allow discharge of fluid under pressure from said inside to the atmosphere when said internal pressure is sufficiently high to lift said stopper means from said seat, wherein said lid includes rotatable cam means for optionally lifting said stopper means from said valve passage in an angularly displaced position of said cam means.

2. A pressure cooker comprising a vessel having an inwardly turned flanged free rim, a lid for forming a sealing closure when applied against said rim, and at least one gravity valve means, the latter including a valve passage arranged in said lid in communication with the inside of said vessel, stopper means for said valve passage capable of being lifted off its seat in said valve passage under action of the internal pressure in said vessel, against the weight exerted by said stopper means, the latter including a valve stern passing through said valve passage and extending therebeyond, said stem being permanently acted upon by said internal pressure, at least one fluid passage being provided between said stem and the internal wall of said valve passage to allow discharge of fluid under pressure from said inside to the atmosphere when said internal pressure is sufficiently high to lift said stopper means from said seat, wherein said stem has a plurality of grooves defining further ones of said fluid passages.

3. The pressure cooker as defined in claim 2, comprising two of said gravity valve means.

4. A pressure cooker comprising a vessel having an inwardly turned flanged free rim, a lid for forming a sealing closure when applied against said rim, and at least one gravity valve means, the latter including a valve passage arranged in said lid in communication with the inside of said vessel, stopper means for said valve passage capable of being lifted off its seat in said valve passage under action of the internal pressure in said vessel, against the weight exerted by said stopper means, the latter including a valve stem passing through said valve passage and extending therebeyond, said stem being permanently acted upon by said internal pressure, at least one fluid passage being provided between said stem and the internal wall of said valve passage to allow discharge of fluid under pressure from said inside to the atmosphere when said internal pressure is sufficiently high to lift said stopper means from said seat, wherein said lid includes cam means for optionally lifting said stopper means from said valve passage, and wherein said cam means are arranged on a rod-rotatably mounted on said lid and having operating means spaced away from said cam means. i

5. The pressure cooker as defined in claim 4, wherein said cam means consist of a bent portion of said rod disposed beneath said stopper means, for lifting said stopper means upon rotation of said rod about its axis.

Claims (5)

1. A pressure cooker comprising a vessel having an inwardly turned flanged free rim, a lid for forming a sealing closure when applied against said rim, and at least one gravity valve means, the latter including a valve passage arranged in said lid in communication with the inside of said vessel, stopper means for said valve passage, including counterweight means disposed above said lid, said stopper means being capable to be lifted off its seat in said valve passage under action of the internal pressure in said vessel, against the weight exerted by said counterweight means, said stopper means further including a valve stem passing through said valve passage and extending therebeyond, said counterweight means being attached to the outer end of said stem, the latter as well as said counterweight means being permanently acted upon by said internal pressure, at least one fluid passage being provided between said stem and the internal wall of said valve passage to allow discharge of fluid under pressure from said inside to the atmosphere when said internal pressure is sufficiently high to lift said stopper means from said seat, wherein said lid includes rotatable cam means for optionally lifting said stopper means from said valve passage in an angularly displaced position of said cam means.

2. A pressure cooker comprising a vessel having an inwardly turned flanged free rim, a lid for forming a sealing closure when applied against said rim, and at least one gravity valve means, the latter including a valve passage arranged in said lid in communication with the inside of said vessel, stopper means for said valve passage capable of being lifted off its seat in said valve passage under action of the internal pressure in said vessel, agaiNst the weight exerted by said stopper means, the latter including a valve stem passing through said valve passage and extending therebeyond, said stem being permanently acted upon by said internal pressure, at least one fluid passage being provided between said stem and the internal wall of said valve passage to allow discharge of fluid under pressure from said inside to the atmosphere when said internal pressure is sufficiently high to lift said stopper means from said seat, wherein said stem has a plurality of grooves defining further ones of said fluid passages.

3. The pressure cooker as defined in claim 2, comprising two of said gravity valve means.

4. A pressure cooker comprising a vessel having an inwardly turned flanged free rim, a lid for forming a sealing closure when applied against said rim, and at least one gravity valve means, the latter including a valve passage arranged in said lid in communication with the inside of said vessel, stopper means for said valve passage capable of being lifted off its seat in said valve passage under action of the internal pressure in said vessel, against the weight exerted by said stopper means, the latter including a valve stem passing through said valve passage and extending therebeyond, said stem being permanently acted upon by said internal pressure, at least one fluid passage being provided between said stem and the internal wall of said valve passage to allow discharge of fluid under pressure from said inside to the atmosphere when said internal pressure is sufficiently high to lift said stopper means from said seat, wherein said lid includes cam means for optionally lifting said stopper means from said valve passage, and wherein said cam means are arranged on a rod rotatably mounted on said lid and having operating means spaced away from said cam means.

5. The pressure cooker as defined in claim 4, wherein said cam means consist of a bent portion of said rod disposed beneath said stopper means, for lifting said stopper means upon rotation of said rod about its axis.

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