[0001] The present invention relates to a spraying device.
[0002] Many devices of distribution are known and make it possible to pour any kind of products
in ready to use form. The handling of existing devices is often difficult resulting
in product drops and stains. It is not possible to really control the quantity of
product distributed.
[0003] The object of this invention is to provide a device allowing:
- an easy handling;
- a clean service by preventing all handlings of corks that can dirty hands;
- and a controlled dosing thanks to a measuring device.
[0004] This has been made possible by a spraying device, comprising a lower part connected
to a rotary upper part, a toric cylinder having a one direction entry valve and being
fixed within the upper part by means of bolts, and a curved piston cooperating with
the cylinder but joined with the lower part.
[0005] The one direction entry valve may be placed at an end of the cylinder opposite to
an entry end of the cylinder for the piston. The cylinder may also comprise an outlet
valve at the connection between the cylinder and a pipe. The product may be expelled
by a spray nozzle, situated at the central axis of the container and having an open
end on the outside through the upper part thanks to an orifice. An automatic return
of the piston through the cylinder may be provided by a rotary spring fixed at a first
extremity to the upper part of the spraying device through a notch and connected with
the piston by a second extremity. The rotary spring may make at least one loop around
the central axis of the container surrounding the spray nozzle, locked down by a plinth
and held up by the pipe connected with the spray nozzle. The rotary movement of the
lower part may be transmitted to the piston by means of a bar which is parallel to
and may rotate around the axis of the container. The rotation of the upper part may
be blocked during the loading of the cylinder, by an abutment and during the ejection,
by the bar. The upper and the lower part may be joined by a clicking mechanism. A
seal ensures the hermetical tightness. The two parts may be brought together forming
a container with a cylindrical shape, easy to handle, with a size comprised between
100 and 150 ml, for example.
[0006] An embodiment of the spraying device according to the present invention including
details of the mechanical parts are described hereafter with reference to the drawings
in which:
- figure 1 is a perspective view of the spraying device without the upper part,
- figure 2 is a general view of the spraying device in perspective with the representation
of all its parts and the indication of the reference number, and
- figure 3 is a face section of the spraying device with the details of additional parts
allowing the closing of the container.
[0007] As shown in figures 1 and 2, the spraying device comprises a lower part (8) connected
to a rotary upper part (6), a toric cylinder (1) having a one direction entry valve
(2) and being fixed within the upper part (6) by means of bolts (17), and a curved
piston (9) connected to the cylinder (1) but joined with the lower part (8). The functioning
of the spraying device is based on the rotation of the lower part (8) whose movement
is transmitted to the piston (9) by the bar of transmission (7).
The piston (9) is rigidly locked with the bar of transmission (7) and it has a
curved shape with a guide that may be a disc. It carries out a rotation around the
central axis of the upper part (6) and fits perfectly into the cylinder (1) whose
form is toric. A first rotary movement makes penetrate the piston (9) into the cylinder
(1) expelling the remaining air. The automatic return of the piston (9) is ensured
by a rotary spring (12), one of its ends is fixed to the upper part (6) through a
notch (11), the other one being connected to the piston (9). The rotary spring (12)
is blocked between a plinth (10) situated below the spray nozzle (16) and a pipe (15)
connecting the cylinder (1) to the spray nozzle (16). Due to a negative pressure inside
the cylinder while withdrawing the piston (9) from the cylinder (1), the one direction
entry valve (2) moves to the open position and allows the product to enter into the
cylinder (1). A second reverse rotary movement expels the product imprisoned in the
cylinder (1) through the outlet valve (3), towards the spray nozzle via the pipe (15).
The rotary movement of the upper part (6) in the sense of the seasoning loading of
the cylinder (1) is limited by an abutment (4) which stops the movement of the bar
of transmission (7). During the ejection, the rotation of the upper part (6) is blocked
by the bar of transmission (7). The third figure shows how the upper part (6) and
the lower part (8) of the spraying device are joined by the intermediary of a "clicking"
device of closing (13). A seal (14) between the two parts ensures a hermetic sealing.
[0008] This system enables a volumetric controlled dosing of the seasoning that is to be
sprayed out, for example, and preventing the users dirtying their hands or staining
themselves, thanks to a clean and neat ejection. The characteristic design enables
it to be easily recognized by the consumer. This spraying device may associate aestheticism
and ergonomics by offering a shape easy to handle. The volume of the distributor once
assembled may comprise between 100 and 150 ml, for example. Once the container is
empty, it is possible to refill it thanks to a system of refill which may be available
in food stores. These refills contain the seasoning in liquid form and may offer a
varied choice in the range of tastes and flavours proposed.
1. Spraying device, comprising a lower part (8) connected to a rotary upper part (6),
a toric cylinder (1) having a one direction entry valve (2) and being fixed within
the upper part (6), and a curved piston (9) cooperating with the cylinder (1) but
joined with the lower part (8).
2. Spraying device as claimed in claim 1, wherein the cylinder (1) comprises a one direction
entry valve (2) placed at an end of the cylinder (1) opposite to an entry end of the
cylinder (1) for the piston (9), and an outlet valve (3) at the connection between
the cylinder (1) and a pipe (15).
3. Spraying device as claimed in claim 1, wherein the product is expelled by a spray
nozzle (16), situated at the central axis of the container.
4. Spraying device as claimed in the claim 1, wherein an automatic return of the piston
(9) through the cylinder (1) is provided by a rotary spring (12) fixed at a first
extremity to the upper part of the spray (6) through a notch (11) and connected with
the piston (9) by a second extremity.
5. Spraying device as claimed in the claim 1, wherein the rotary spring (12) makes at
least one loop around the spray nozzle (16), one end fixed by a plinth (10) and held
down by the pipe (15) which connects the spray nozzle with the cylinder (16).
6. Spraying device as claimed in claim 1, wherein the movement imparted to the lower
part (8) is transmitted to the piston (9) by means of a bar (7) which is parallel
to and may rotate around the axis of the container.
7. Spraying device as claimed in claim 1, wherein the rotation of the upper part (6)
is blocked during the loading of the cylinder (1), by an abutment (4) and during the
ejection, by the bar (7).
8. Spraying device as claimed in claim 1, wherein the upper (6) and the lower part (8)
are joined by a clicking mechanism of closing (13), in a hermetical manner, by the
interposition of a seal (14).
9. Spraying device as claimed in claim 1, wherein the two parts (6) and (8) are brought
together forming a container with a cylindrical shape, easy to handle, with a size
of between 100 and 150 ml.