DE1035438B - Valve for filling and emptying liquid containers - Google Patents

Description

Applicant:

Flight Refueling Limited,

Tarrant Rushton Airfield, Blandford, Dorset

(Great Britain)

Representative Dipl.-Ing. H. Beschich, patent attorney, Regensburg ,Checkinger Str. 11

Claimed Priority: Great Britain April 16, 1956

Graham Frederick Marriette,

Bournemouth, Southbourne, Hants (Great Britain) has been named as the inventor

The invention makes use of the at
Container filling valves known construction with io
a plug controlled by a piston which is subjected to a pressure differential
is, in turn, by a fluid level in the
Container dependent, e.g. B. is influenced by a float-operated auxiliary valve. This con- 15
instruction to use on valves that have both
Filling like emptying containers above you
serve common connection clip has already been proposed. With the construction according to the invention, in contrast to the previous 20
beaten achieved that the valve closes when the container is emptied, namely when the "container is not completely empty." This will make ^

prevents air from flowing in and into the system. The valve arrangement is marked 10 in FIG.

can penetrate. The difference between the recorded. Your valve body delimits a liquid according to the invention and the proposed valve access passage 11, the ends of which with 12 and 13 indicates that two valve closures are provided. The end 12 of the passage 11, which can open in the opposite direction, is through lines 14, 15 with a coupling 16 under the influence of the acting thereon _for connecting a supply hose for liquid flow in one direction or the other, and that 30 Fuels and connected to a machine 17, the piston, which is moved by the liquid level while the end 13 of the passage through a

Line 18 is connected to a container 19.

Floats 21 and 22 for high and low

Fluid levels in the container 19 control the valve assembly 10.

The further valve arrangement should be based on the

Description of the mode of operation are explained.

Provided that liquid through the

Valve arrangement 10 shown by a line hose connected to the container 19 with the coupling 16

is supplied, there is a flow in the in

influenced auxiliary valves is controlled, is slidably connected to the two locking pieces, namely so that it takes one or the other with it in the closing direction.

In the drawing, the invention is shown in one embodiment.

Fig. 1 is a longitudinal section through the valve assembly showing a fuel container and others associated parts are diagrammatic.

FIGS. 2 to 5 show diagrammatically the direction indicated by arrows. the

sift through the valve assembly under the various liquid exiting from the end 12 into the passage

Operating conditions: 11 a, flows along a control housing 23,

Fig. 2 shows the valve in the position when the 45 reaches through lateral openings 34 in the one valve liquid flows into the container; locking piece 25 and presses the head piece 29 of a

Fig. 3 shows the valve parts in the position when the second, in the closure piece 25 with a cylinder

the valve automatically to prevent a wide-shaped part 32 slidingly mounted closure piece

ren liquid access is blocked; 31 away from its seat 28, whereby the liquid

Fig. 4 shows that position when the liquid 50 clears the passage. Since the fluid level is in

speed is withdrawn from the container; the container 19 is too small to be a float

Fig. 5 shows the valve parts in the position when 21 to raise, contacts 49, 50 are closed, and

the valve is in the circuit of a battery 48 due to the low fluid level

is closed in the container. Solenoid 47 is energized so that a first auxiliary valve 45

609 579/284

is open. In a cavity 43 is a closing '. member 44 is arranged, which under the action of a spring 46 closes the channel 41 and is withdrawn against the action of the spring when the solenoid is excited and thus opens the channel 41. When the solenoid 47 is energized, the liquid can flow through channels 41, 42 via the cavity 43 into a chamber 37 and in the same way into a chamber 38 through an opening 40 in the control housing 23, the chambers 37 and 38 being divided by dividing the interior of the Control housing 23 by a KoI-l> en 35 are formed. In the present case, there is no pressure difference on the piston 35. When the liquid in the container 19 reaches such a level that the float 21 is raised and the contacts 49, 50 are opened, the solenoid 47 is switched off, the auxiliary valve 44 is closed and no further liquid can flow into the chamber 37. However, liquid can escape from this chamber 37 through a narrowed channel 39 in the closure piece 31, so that the pressure in the chamber 37 falls while the pressure in the chamber 38 is maintained. As a result, the piston 35 moves to the left in FIG. 1 and takes the closure piece 31 with it onto its seat, whereby the flow of liquid into the container is shut off. The parts are then in the position shown in FIG. 3.

When liquid is sucked back from the container 19 to supply the machine 17, takes place the reflux takes place under gravity or under gas pressure in the container, the closure piece 25 is lifted from its seat 24 by the flow of liquid. The parts are then in the in Fig. 4 shown position, with the auxiliary valve 45 closed and one on the lower part of the container 19 attached auxiliary valve 53 is open, which via lines 51, 52 to the end 12 and the Chamber 37 is connected. The liquid flows into the chamber 37 through the channel 39, but can through the lines 52, 51 escape, so that no pressure is built up in the chamber 37 which opens up to an opening of the closure piece 25 opposes. However, if the liquid in the container 19 sinks so far, that the float 22 pivots down and the auxiliary valve 53 closes by the shut-off member 54 presses on its seat 55, an escape of the liquid from the chamber 37 is prevented. Since the liquid continues to flow into that chamber through channel 39, pressure is built up in this chamber, which affects the piston 35 and it to close the closure piece 25 and shut off of the liquid flow through the passage 11 is moved to the right. A one-way valve 56 in the Line 52 ensures that the liquid only flows from the chamber 37 to the end 12 of the liquid passage 11 and not in the opposite Direction through the lines 51 and 52 can flow. In this way, the flow channel 51, 52 only shut off when the tank is almost empty, but only allows one-way flow of liquid, even when he's open.

The closure piece 25 is supported by a spring 27 against the control housing 23 against his Seat 24 pressed. The piston 35 is against one of the end of the protruding part of the plug 31 protruding flange 36 by a spring 30 supported against control housing 23 printed. In this way, the spring forcibly moves the collar against this flange, thus forcing it the head piece 29 of the closure piece 31 on its seat. The spring 30 is softer than the spring 27.

The invention thus creates a valve which both the filling and the emptying of a container, prevents overfilling and sucking in air or gas from the emptied Makes containers impossible.

Claims (4)

PATENT CLAIMS: 1. Valve for filling and emptying liquid containers with one controlled by a piston Closure piece, the one through an auxiliary valve dependent on the liquid level in the container influenced pressure difference is subjected, characterized in that two valve closures (25, 31) are provided, which are under the influence of the flow acting on it open in the opposite direction, and that the piston (35), which by the liquid level influenced auxiliary valve (45, 53) is controlled, sliding with the two locking pieces (25, 31) is connected. 2. Valve according to claim 1, characterized in that one of the closure pieces (31) with a seat (28) in the passage (11) cooperates, while the other closure piece (25) cooperates with a seat (24) surrounding an opening in the first closure piece. 3. Valve according to claim 1 and 2, characterized in that the piston (35) is the control housing (23) divided into two chambers (37, 38), one of which is constantly connected to the passage of liquid on one side of the valve seat and the other is connected to the passage on the other side of the valve seat, the arrangement being such that each chamber is flush with the side of the valve seat is connected, which is upstream when the liquid in a direction to open the Closure piece flows, which by a pressure difference corresponding to a higher pressure in this chamber is closed. 4. Valve according to claim 4, characterized in that one of the chambers by auxiliary valves (45, 53) controlled channels with the liquid passage on the opposite side of the valve seat (24) opposite to that part of the passage (11) is connected to which it is permanently connected, the channels providing two fluid paths, one of which is one Contains one-way valve (56) which prevents an inflow of liquid into the chamber (34) and closed by the fall of the liquid in the container (19) to a minimum level while the other way is due to the rise of the liquid in the container (19) a high is closed. Considered publications:
German Patent No. 718,923;
German Auslegeschrift St 8794 XU / 47g (published on November 3, 55). Legacy Patents Considered:
German Patent No. 969 047. 1 sheet of drawings @ 809 579/284 7.58