DE244331C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 244331 - ■ CLASS 34Zr. GROUP

FRANZ REICHHARDT in FRANKFURT a. M.

in certain quantities.

Patented in the German Empire on November 21, 1909.

The invention relates to devices for dispensing liquids, e.g. B. more fluid Soap, in certain quantities with one attached to the liquid container Measuring chamber and an outlet through which the measured liquid emerges. The measuring room is controlled against the reservoir and the outlet at time intervals Closure organs closed off or connected to them, their return after the liquid has been dispensed to the state of rest with the appearance of a suction acting negative pressure takes place in the measuring room. A special outlet is necessary, otherwise the

! 5 space exiting. Liquid on that of Outlet opening-serving closing organs splashed while the outlet leads and can emerge in a closed jet.

The known devices of this type are now not hygienic because after use at the outlet opening, similar to a tap, always turn it on Drops stick to which dust particles adhere, and that too soon hardens and then prevents further leakage of liquid.

Thus, a device has become known in which the measuring space is cylindrical and a piston is used to close it against the reservoir, while between the measuring space and outlet a spring valve is switched on. When the piston descends against the Container opens the spring valve under the liquid pressure, and the liquid flows out. But as soon as the piston begins to decline, the valve closes immediately again, and liquid residues remain in the outlet, on which the piston rises when the piston is raised suction does not extend in the measuring chamber and which contract to a drop at the outlet opening.

This inconvenience is now remedied according to the invention in that the Connection between the measuring room and the outlet serving closing organ at least at the beginning the air dilution occurring in the measuring room when the parts return to the idle state inevitably remains open, so that the suction in the measuring space also affects the liquid residue remaining in the outlet extends. The inevitable keeping of the Closing organ between the measuring room and the outlet at the beginning of the one entering the measuring room Suction is not in itself new; it is found on devices in which im A suction effect occurs, but a special outlet is not available, and with those with which there is, of course, an outlet of their own, but with which again no suction is provided. In both cases, however, this can also be used here The intended purpose of preventing the formation of drops at the outlet opening was not achieved will.

In the drawings, FIGS. 1 to 4 show four embodiments of the new dispensing device shown in longitudinal section.

In all cases, the parts that act in the same way are denoted by the same numbers.

In the embodiment according to FIG. 1, a container is used to absorb liquid Measuring chamber 2 and the outlet 3 connected to it. The valve-like closing element 4 between the container and the measuring space is pierced centrally and is located in a through the container 1 and extending Tube 5 widened at the top, which is under the action of spring 6. Is up the tube 5 is closed by an elastic ball 7. The other closing organ 8, a poppet valve closes the outlet to the measuring chamber 2 when the device is at rest off and sits on a rod 9 which passes through the tube 5 and inside the ball 7 ends. In the upper widening of the tube 5, a spring 10 is housed, which is supported at the top against a plate 11 fastened to the valve rod 9. The support plate is provided with holes so that the interior of the ball 7 with that of the tube 5 and the measuring room for the circulation of air are connected to one another. About the elastic Ball 7 has a cap 13, which is guided on the neck attachment 12 of the container 1, over it. the Spring 6 is stronger than spring 10 and relieved at rest, while the latter is under tension is.

The effect is as follows: the cap 13 is pressed; thereby the ball 7 is compressed and the pressure is transferred to the tube 5, which softens itself under tension of the spring 6 and the relief of that 10 with it the valve 4 lowers. This rests against the wall of the measuring room 2 and blocks the Liquid in this against the container liquid. Is the cap up to the meeting the ceiling of the ball 7 has been pressed down with the valve rod 9, then the valve 8 is now under tension the spring 10 pushed open, and the measured liquid runs, supported by the compression of air that occurs when the ball 7 is compressed in the pipe 5 and in the measuring chamber 2, through outlet 3.

When the cap is released, the pressure on the ball 7, the tube 5 and the valve rod stops 9 on. The ball 7 expands again and in the process creates a dilution of air in the pipe 5, in the measuring space 2 and outlet 3. This is because the valve 8 cannot open itself again immediately at the beginning of this air dilution and the suction effect that occurs as a result close because it is its closing movement under the action of relaxing Spring 10 can only perform to the extent that it was in its earlier form and position returning elastic ball 7 allows. Until the ball expands again has that the valve 8 can sit back on its seat, has that of the ball the dilution of the air caused by the re-expansion but also its suction effect exerted on the outlet 3 and the liquid residues remaining in this approximately sucked back into the measuring chamber 2. While these processes lifts the relaxing spring 6 and the tube 5 with the Valve 4 on again, whereby the connection between container 1 and measuring chamber 2 again will be produced. In the last part of its upward movement, the pipe tensions the spring again 10, whereby the valve 8 is pulled tightly into its seat.

In the embodiment according to FIG mediated by the elastic ball 7 at the beginning of the suction effect occurring in the measuring space, so this is concerned in the embodiment according to Fig. 2, the closing element between container 1 and measuring space 2 directly self.

In this embodiment, the measuring space 2 is cylindrical in a manner known per se and above the same a plunger 4 which can be inserted into it and which with a Collar 14 on the valve 8 opposite extension 15 is provided. The piston 4 passes through which protrudes into the tubular extension 5 of the same and there with a support plate 11 for the intermediate spring 10 provided valve rod 9. The tube 5 is through at the top a rigid closure piece 16 is closed and is under the action of the spring 6. The remaining parts of this embodiment correspond to those according to FIG Spring 6 is relieved again, that 10 is tensioned.

When the cap 13 is pressed down, the tube 5 goes under compression of the spring 6 down, the piston 4 entering the measuring chamber and blocking it from the container 1. At the same time, the spring 10 is relieved by the piston drop. then the piston extension 15 meets the collar 14 of the valve, and this is pushed open, so that the measured liquid through the Outlet 3 can flow off. When the cap 13 is released, the relaxing spring 6 pulls the tube 5 and thus the piston 4 up again, whereby an air dilution in the measuring space entry. However, the valve 8 cannot close immediately at the beginning of the air dilution because the valve collar 14 is still rests on the piston extension 15. It is therefore initially at the beginning of the piston decline inevitably kept open so that the air that occurs in the measuring room as a result of the dilution of the air Suction effect also on the spout

must extend and any remaining liquid in it back into the measuring room be sucked back. So piston 4 and valve 8 initially go up together at the same speed until they move the valve 8 has been placed back on its seat, and then the piston 4 completes the Restoring the connection between container 1 and measuring room 2 the last part its high gear alone, which goes on under re-tensioning of the spring 10, the thereby pressing the valve 8 firmly back onto the seat.

In the same way as the embodiment according to FIG. 2, that according to FIG. 3 also acts. Here the dispensing device is housed below the storage container 1. On a Rod 17 sits a piston 4 and below the same one provided with a collar 15 Driver piece 18, which, like the housing of the device, with openings for the passage of a pressure lever 19 articulated on the housing is provided. The lower The end of the rod 17 is encompassed by a sleeve 20 connected to the valve 8, in the interior of which the spring 10 is accommodated through the intermediary of the support plate 11. When the device is at rest, this becomes through the stronger, the rod 17 with the piston 4 pulling upward, relieved spring 6 tensioned. By pressing down the lever 19 is under tension of the spring 6 and relief of the spring 10 the Rod 17 with the piston lowered into the cylindrical part of the housing of the device enters and thereby blocks the measuring space 2 from the container 1. This is where it meets the. Bund 15 with the upper edge 14 of the sleeve 20 together, whereby this too and thus the valve 8 go down. The measured liquid can now run out. When the pressure lever 19 is released, as long as the collar 15 rests on the edge of the sleeve 14, Valve 8 and piston 4 initially together upwards, and when the 'valve 8 is open met his seat on. is completed, the piston 4 completes with complete relief of the spring 6 and tensioning the spring 10 the last part of the decline, whereby the measuring space 2 against the container 1 is opened again. Due to the decrease in the piston 4 in The air dilution that forms in the measuring chamber 2 also creates the suction effect in the outlet.

In the dispensing device shown in Fig. 4, again attached to the bottom of the container 1, the hollow interior of the tube extension 5 adjoining the valve 8 and provided with a flange 14 at the top serves at the same time for the passage of the liquid from the container 1 into the measuring chamber 2 and is provided with holes 21 at the bottom for this purpose. The tube is encompassed by the tube piston consisting of two parts 4, 4 'connected to one another by ribs, which is under the action of the spring 6 and * in its upper part. Part 4 'has a re-entrant collar 15 formed approximately by a screwed-in ring. The spring 10 is connected between the tubular piston part 4 'and the valve tube 5. The pressure lever 19 is in two parts, it encloses the valve tube 5 with its two parts and is supported with extensions 22 on the lower part 4 of the tubular piston. When the pressure levers 19 are depressed, their extensions 22 press down the tubular piston 4, 4 'under tension of the spring 6 and relief of those 10, and the tubular piston closes the openings 21 in the valve tube, whereby the amount of liquid intended for dispensing is measured. Then the ring 15 and the pipe flange 14 meet, the valve pipe is lowered and thus the valve 8 is pushed open. When the pressure lever is released, the tubular piston 4, 4 ¹ and the valve 8 initially move upwards together, and after the valve 8 has closed, the spring 10 is tensioned again by the spring 6, which is now completely relieved. Once again, the dilution of the air entering the measuring space 2 go when the cattail part 4 goes up also exerts its effect on the outlet 3.

Claims (1)

Patent claim: Device for dispensing liquids, for example liquid soap, in certain quantities with a measuring space and controlled closing devices, which shut off the former against the storage container and the outlet at time intervals or connect with these, and their return to the state of rest itself with the appearance of a sucking effect Underpressure takes place in the measuring space, characterized in that the closing element between measuring space (2) and outlet (3) is controlled such that it is only after The suction effect started in the measuring chamber closes so that it also affects the liquid residues remaining in the outlet extends. ^ 1 sheet of drawings.