Spray pump with container connector

A spray pump having a connecting portion connectable to a container and whose housing is provided with co-axially step bores defining a venting chamber for venting the container and a pump chamber. The pump piston has oppositely conically divergent lips engaging the walls of the respective chambers and is hollow to receive the restoring spring which can also bear upon a checkvalve ball.

CROSS REFERENCE TO RELATED APPLICATIONS 
This application is a national phase application corresponding to the 
PCT/DE84/00257, filed Nov. 30, 1984 and based, in turn, upon German 
applications Nos. G83 35 862.5 of Dec. 14, 1983 and G84 31 062.6 of Oct. 
23, 1984 under the International Convention. 
FIELD OF THE INVENTION 
The present invention relates to a spray pump with container connector 
wherein through the actuation of a pump piston slidable in a case bore a 
vent in contact with the atmosphere is opened, or closed, with respect to 
the container. 
BACKGROUND OF THE INVENTION 
Such spray pumps are used to draw liquids from containers and for the 
spraying, or atomizing of a predosed quantity of liquid. These spray pumps 
having casings connectable to the container are actuated mechanically from 
the outside by means of levers or the like, acting upon the different 
pumping devices. Due to the negative pressure resulting each time, a 
certain amount of liquid is aspired from the container through an 
aspiration tube, whereby in the container atmospheric pressure is 
maintained. The aspired liquid is directed towards a spray nozzle via a 
liquid supply duct, due to further pressure on the pump piston; in front 
of the spray nozzle a swirl chamber, for instance, can be mounted. During 
each compression stroke, the container is ventilated, so that the 
atmospheric pressure in the container is reestablished. 
Spray pumps of various kinds are known which, for instance, can be threaded 
to the container via a connector piece or via an intermediate piece and a 
connection nut. It is known to act upon the elastical sealing collar of 
the intermediate piece through the lever actuating the pump and the 
corresponding rods so that this collar is pressed away from the surface to 
be sealed at each actuation, leaving a passage for the ventilation of the 
container. It is also known to unblock a vent leading to the container 
connector via the pump piston sliding in a corresponding bore of the 
casing. In both cases it is necessary to control the ventilation in order 
to avoid unintended discharge of the liquid through the vent in the 
corresponding, or reversed position of the container with the spray pump 
threaded thereto. For this reason the vent has to be sealed towards the 
outside. The known actuation means for ventilation require additional 
parts, or bore channels. 
OBJECT OF THE INVENTION 
It is the object of the present invention to simplify the construction of 
the necessary ventilation system via the container connector in a spray 
pump as described above. 
SUMMARY OF THE INVENTION 
The object of the invention is attained with a spray pump having a 
crown-shaped lip seal on the pump piston or its rod, which prior to the 
actuation of the piston is pressed sealingly against a smooth segment of 
the casing bore and after the displacement of the piston in pumping 
direction, allows for the opening of a complete or partial annular slot 
between the lip seal and the inner wall of the bore. 
Thereby, a casing bore widening towards the side of the container connector 
and an open connection from the casing bore to the container connector can 
be provided. Preferably, this casing bore is conically widened in stages, 
whereby the opening angles of the conical segments differ from each other. 
In such a casing bore constructed according to the invention the lip seal 
provided on the pump piston merely slides along smooth wall surfaces. Due 
to its inherent tension, in the closed position the lip seal presses 
sealingly against the wall of the respective segment of the casing bore. 
When the pump piston is displaced, the respective lip seal reaches an 
area, where due to the conical configuration of the casing bore, an open 
annular slot between the seal and the wall of the bore is created. 
Thereby, an open connection between both frontal sides of the bore is 
created. This bore is open from the side where the pressure is applied 
towards the atmospehre An escape towards the container is provided in the 
direction of the connector. 
A further embodiment of a spray pump according to the invention is 
characterized by the fact that in the case bore bars running parallelly to 
each other in longitudinal direction and spaced apart from each other are 
provided, the lip seal being slidable thereon, whereby a ventilation 
connection from the atmosphere to the container connector is opened. In a 
further development of such a spray pump it is proposed to provide at the 
end of the case bore opening towards the atmosphere an inner arresting 
collar against which the lip seal comes to stop when the piston is 
automatically reset by spring pressure. This way, a traction-proof support 
system of the pump piston in its case bore is achieved. The tapered 
crown-shaped lip seal hits the inner arresting collar of the case bore 
when the piston is pushed back under pressure, preventing the piston from 
being pulled out of the bore.

SPECIFIC DESCRIPTION 
First reference will be made to FIGS. 1 
The totality of the synthetic-material case of housing of the shown 
swirl-nozzle spray pump is marked with 1. With a flange 18 externally 
molded thereto this housing can be connected to a container not shown in 
the drawing by means of a cap-like container connector 3. The bottom 
socket 11 of the casing 1 provided with a passage for the liquid to be 
sprayed extends into the container. 
Behind a supply duct a first check valve 2 is provided, consisting of a 
ball 21, the valve 22 and the spring 7 acting against the ball; this 
spring rests against the pump piston 5 in which it is partially received. 
The pump piston 5 extends with a crown-shaped lip seal 53 into the actual 
pump cylinder 15, which is connected to one side with the socket 11 via 
the valve 2. This pump piston 5 is hollow. At its end directed towards the 
pump cylinder 15 a second check valve 4 is provided on the inside, which 
again consists of a ball 41 and a valve seat 55, as well as of the 
pressure spring 8. On the piston rod 51 protruding from the housing 1 
through its frontal opening 19 the trigger 9 or manual operator with the 
guide 91 is mounted on the outside. 
The hollow piston rod 51 is connected with a channel 13 on the trigger 9; 
the channel leads to a swirl chamber 12 in whose opening towards the 
outside the spray nozzle 14 is mounted. 
When via the trigger 9 the pump piston is pressed downward in the direction 
of the container connector, liquid is pressed from the narrowing pump 
cylinder small-diameter bore 15 over the opened check valve 4 through the 
hollow piston 5 to the duct 13 and from there to the swirl chamber 12 and 
through the spray nozzle 14 to the outside. 
In order to balance the vacuum created in the container for the next 
aspiration process, ventilation takes place in this position through the 
housing bore 16 in contact with the atmosphere and through the escape 10 
in the area of the flange 18. 
The trigger 9 is lifted upon release due to the pressure spring 7. The pump 
piston 5 slides back. A crown-shaped lip seal 54 on the outside of the 
piston rod 51 slides thereby from the position according shown at the left 
hand side of FIG. 1 to the right-hand position in FIG. 1. It can be seen 
that this case bore (large-diameter chamber) 16 widens conically in stages 
towards the connector side. In the closed position, the lip seal 54 is 
pressed sealingly against the segment 16a of the case bore. The case bore 
16 is thereby closed with respect to the the frontal opening 19. During 
the displacement of the piston in the direction of the container 
connector, the lip seal reaches the next conically widened segment 16b of 
the case bore 16 and after that the area of the cylinder segment 16c, 
where between the lip seal 54 and the bore wall an annular slot is created 
to make possible the ventilation. The conical casing bore segment 16a 
defining the closed position has a smaller opening angle of the cone than 
the following case segment 16b. 
The totality of the synthetic-material casing of the swirl-nozzle spray 
pump shown in FIG. 3 is marked with the numeral 1'. In its bottom area 
there is a socket 11', in which the connecting piece 4' is inserted. On 
the flange 41' of this connecting piece 4' protruding outwardly a 
connection cap 3' is mounted, through which the casing can be threaded to 
a container not shown here.Through the pipe-shaped connecting piece 4' 
protrudes a duct socket 15' molded to the housing, the aspiration tube 24' 
extending downwardly being a continuation thereof. 
This aspiration duct is thereby held in a socket 23' which is again 
fastened to the duct socket 15'. The upper end of this socket 23' forms 
the valve seat 22', which together with a sphere 21' creates the check 
valve 2'. Above this check valve 2' the recess 16' which receives the pump 
piston is provided, this recess running in transversal direction with 
respect to the connection channel 13'. 
In this recess 16' the open pump cylinder 6' is molded concentrically with 
respect to the channel 13', the pump piston 5' being displaceable from the 
outside in this cylinder. The pump piston 5' is pressed each time 
automatically in its extreme position via the pressure spring 7' resting 
against the inside of the casing. The pump piston 5' is prolonged towards 
the exterior with the rod 51' on which a lever 52' is provided, guided 
parallel to the axis of the piston. 
The pump recess 16', or the bore 17' provided therein is open towards the 
lever 52', e.g. in contact with the atmosphere. With its other end it is 
in open contact with the container connector piece 4'. In order to seal 
this ventilation opening while the pump is not in operation, a 
crown-shaped lip seal 53' is provided, which due to its inherent pressure 
presses sealingly against a smooth sealing segment 19' of the bore 17'. 
This crown-shaped lip seal creates at the same time an arresting means for 
the movements of the piston, since in its extreme position it stops 
against an inner arresting collar 20' in the pump recess 16'. 
When the piston 5' is actuated via the lever 52' in the direction of the 
pressure, the lip seal 53' slides on the longitudinal bars 18' in the bore 
17'. These longitudinal bars parallel to each other are spaced apart, so 
that between the bars a connection passage with the shape of a partial 
annular slot to the connecting piece 4' is opened, whereby the ventilating 
of the container takes place. 
During the spring-loaded reverse motion of the piston 5 ' a negative 
pressure is created in the cylinder 6'. In the aspiration duct 24' the 
liquid rises under the effect of the external atmospheric pressure through 
the check valve 2' and partially fills the pump cylinder 6', as well as 
the channel 13'. After leaving the bars 18', the lip seal 53' again seals 
the bore 17' in the area of the sealing segment 19', so that even when the 
container is in an inclined or reversed position, the liquid can not 
escape. 
During the next actuation of the piston 5' in the direction of the 
pressure, the liquid aspired into the cylinder 6' and the channel 13' is 
pushed towards the evacuation- or supply duct 12' and from there is 
sprayed through the nozzle 14' and the swirl chamber mounted before it. 
The check valve 2' is closed at this time.