EP0164373A1

EP0164373A1 - Swirl atomizing pump

Info

Publication number: EP0164373A1
Application number: EP85900049A
Authority: EP
Inventors: Karl-Heinz Schmidt
Original assignee: SCHOTTE Werner
Current assignee: SCHOTTE Werner
Priority date: 1983-12-14
Filing date: 1984-11-30
Publication date: 1985-12-18
Also published as: DE8335863U1; IT1196370B; IT8424064A0; WO1985002562A1; ES283392U; ES283392Y

Abstract

Dans la pompe de pulvérisation à turbulence, une soupape de non-retour est disposée dans la direction de refoulement derrière le dispositif de pompe dans le conduit (14) d'admission du liquide vers une chambre de turbulence (6) munie d'une buse de pulvérisation (51). La soupape ferme le canal (14) en l'absence de pression et est ouverte sous la pression de la pompe dans le conduit d'admission (14) de forme annulaire. A la paroi intérieure (71) du conduit limitant l'espace annulaire est disposée une lèvre circulaire d'étanchéité (72) près de l'entrée de la chambre de turbulence (6), cette lèvre agissant contre la paroi extérieure (121) de l'espace annulaire (14) sous l'effet de sa propre tension.In the swirl spray pump, a non-return valve is arranged in the discharge direction behind the pump device in the liquid inlet duct (14) to a swirl chamber (6) provided with a nozzle spray (51). The valve closes the channel (14) in the absence of pressure and is opened under the pressure of the pump in the inlet conduit (14) of annular shape. At the inner wall (71) of the duct limiting the annular space is arranged a circular sealing lip (72) near the entrance to the turbulence chamber (6), this lip acting against the outer wall (121) of the annular space (14) under the effect of its own tension.

Description

Swirl atomizer pump

The invention relates to a swirl atomizer pump, in which a one-way valve is arranged in the conveying direction behind the pump device in the liquid supply channel to the swirl chamber with the atomizer nozzle, which closes the channel in the depressurized state and opens under pump pressure.

Swirl atomizer pumps of this type are used for conveying liquids from containers and for atomizing or spraying one metered each Amount of liquid. These atomizer pumps, which can generally be placed on the container with their housing, are mechanically or the like from the outside via lever handles. actuated, which act on a wide variety of pumping devices. As a result of the vacuum generated in each case, a certain amount of liquid is sucked in via a riser pipe, which, after renewed pressure on the pump piston, is pressed via a liquid supply channel to a swirl chamber, from which the liquid is then sprayed out through a nozzle due to the swirl effect.

Such a swirl atomizer pump with a piston pump device is known, in which the liquid sucked into the piston chamber is guided to the swirl chamber through a tubular liquid supply channel arranged perpendicular to the riser pipe. This liquid supply channel is arranged parallel to the direction of movement of the external operating lever, via which the respective ventilation of the container is controlled. To prevent that in the piston chamber or parts of the

If the swirl atomizer pump or the associated container is held appropriately, the supply channel of remaining liquid flows out or evaporates, in this known swirl atomizer pump a one-way valve is arranged at the beginning of the liquid supply channel, i.e. behind the pump device, which closes the channel in the depressurized state and opens under pump pressure. It is about thereby a spring valve with a valve pin which is pressed by a compression spring into a corresponding valve seat in the supply channel. However, since in this construction there is still a relatively long section of the liquid supply channel behind this one-way valve, in which liquid which has not been expelled can remain, the outlet nozzle of the swirl chamber is additionally closed from the outside with a hinged cover.

The object of the invention is to propose a swirl atomizer pump of the type mentioned at the outset, in which an outflow or evaporation of liquid located in the feed channel is largely prevented and additional closures at the nozzle outlet are avoided.

The object of the invention is achieved with a swirl atomizer pump of the type mentioned at the outset, which is characterized by an annular feed channel, on the inner wall of which delimits the annular space, a circumferential lip seal is arranged shortly before entry into the swirl chamber, which acts on the outer wall of the annular space due to its own preload .

According to a preferred embodiment of the invention, the lip seal is integrally formed on the outside of a hollow cylinder that delimits the annular space on the inside. In such a construction, the swirl chamber is sealed by the lip seal / so that any liquid remaining in the feed channel can neither escape nor evaporate.

The construction according to the invention is simple and inexpensive in contrast to the additionally necessary and to be assembled parts of corresponding one-way valves in the known construction described.

The invention is explained in more detail below on the basis of an illustrated exemplary embodiment. The illustration shows a longitudinal section through a swirl atomizer pump.

The entire plastic housing of the swirl atomizer pump shown bears the number 1. At its lower section, a nozzle 11 is formed, in which a connector 4 is inserted. On the outwardly projecting flange 41 of this connector 4, a cap 3 is placed, with which the housing can be screwed onto a container (not shown). Through the tubular connector protrudes a molded in the housing duct 15 in which the riser 24 forms the extension down.

This riser pipe is held in a nozzle 23, which in turn is fastened in the duct nozzle 15. The upper end of this nozzle 23 forms the valve seat 22, which forms a check valve 2 with a ball 21. Above this check valve 2, a receptacle 16 for the pump arrangement is formed transversely to the channel 13.

In the bore 17 of this pump receptacle 16, the pump cylinder 18 is formed, in which a piston 19 can be moved over the shaft 191 projecting outwards. The shaft 191 is actuated via the handle 192, which is guided on the housing 1. The piston 19 is automatically reset via the helical compression spring 8.

The fluid conveyed through the check valve 2 when the pump is actuated via the riser pipe 24 is pressed through the channel 13 when the piston 19 of the pump is actuated again, to an annular feed channel 14 which is provided in a tubular housing extension 12 parallel to the actuating direction of the handle 192. This feed channel 14 is formed by the concentrically inserted cylinder 7, the outer wall 71 of which delimits the annular space on the inside. The outer boundary of the annular space forms the inner wall 121 of the tubular housing extension 12.

This annular feed channel 14 is connected to the channel 13. It leads to a swirl chamber 6 formed at the end of the tubular housing extension 12.

This swirl chamber is on a plug-like insert 5 formed, which is inserted sealed from the outside in the tubular housing extension 12. The outlet nozzle 51 is provided centrally in this insert.

Before the entry 61 into the swirl chamber 6, a lip seal 72 is formed on the insert cylinder 7 in a ring shape, which due to its internal stress acts against the wall 121 of the feed channel 14. In the depressurized state, this feed channel 14 is therefore sealed off from the swirl chamber 6 or the nozzle 51. This lip seal 72 opens under the pressure of the actuated piston 19 of the pump, so that the liquid to be ejected or sprayed can reach the swirl chamber or to the outside in a metered amount. After the pump is actuated, the lip seal in turn closes the channel 14 immediately before entering the swirl chamber, so that any liquid remaining in the channel 14 can no longer escape or evaporate.

Claims

1. Swirl atomizer pump, in which a one-way valve is arranged behind the pump device in the liquid supply channel to the swirl chamber with the atomizing nozzle in the conveying direction, which closes the channel in the depressurized state and opens under pump pressure, characterized by an annular supply channel (14), on the inner wall of which delimits the annular space (71) shortly before entering (61) into the swirl chamber (6) a circumferential one

Lip seal (72) is arranged, which acts due to its own bias against the outer wall (121) of the annular space (14).

2, swirl atomizer pump according to claim 1, characterized in that the lip seal (72) is integrally formed on the outside of a hollow cylinder (7) delimiting the annular space (14) on the inside.