EP0437131A1 - Precompression hand pump for the spraying of a liquid, in particular a perfume - Google Patents

Abstract

The pump (1) comprises: a body (4) fitted with an end piece (9) for connecting to a plunger tube (13), equipped with an inlet valve (15); a cylinder (16) suitable for sliding in the body through the action of a push button (17) pushed in by the user, in opposition to elastic return means (18); a lower piston (34) linked to the cylinder. The lower piston (34) comprises a central passage (35) in which, approximately at mid-height, arms (36) extend radially and form a kind of star, these arms (36) carrying a central rod (37) which is coaxial with the piston (34) and of smaller diameter, elastic means for returning the cylinder (16) and the lower piston (34) being constituted by a helical spring (18), one end of which is engaged in the central passage of the piston (34) and bears against the radial arms (36) and the other end of which bears against a stop (s) integral with the internal wall of the body (4). <IMAGE>

Description

• un corps destiné à être fixé sur l'embouchure d'un récipient contenant le liquide à pulvériser, ce corps comportant, à sa partie inférieure, un embout de raccordement à un tube plongeur, cet embout étant muni d'un clapet d'aspiration anti-retour ;
• un cylindre propre à coulisser dans le corps sous l'action d'un poussoir actionné par un utilisateur, à l'encontre de moyens de rappel élastiques, ce cylindre étant associé, à sa partie supérieure, à une tubulure de raccordement conduisant à une tête de pulvérisation, et un clapet de refoulement coopérant avec la tubulure de raccordement, ce clapet étant propre à s'ouvrir pour une pression déterminée dans le cylindre ;
• un piston inférieur, lié au cylindre par des moyens de liaison en translation, et comportant des moyens d'étanchéité propres à fermer une chambre de volume variable comprise entre le clapet d'aspiration, le corps et le cylindre, le piston inférieur étant traversé par un passage longitudinal, le clapet de refoulement étant monté de manière à pouvoir se déplacer dans le cylindre par rapport à la tubulure indépendamment du piston inférieur, ledit clapet de refoulement étant rappelé élastiquement vers la tubulure.

The invention relates to a manual precompression pump for spraying under pressure a liquid, in particular a perfume, a pump of the type which includes:

• a body intended to be fixed on the mouth of a container containing the liquid to be sprayed, this body comprising, at its lower part, a connector for connection to a dip tube, this connector being provided with an anti-suction valve -back;
• a cylinder capable of sliding in the body under the action of a pusher actuated by a user, against elastic return means, this cylinder being associated, at its upper part, with a connection tube leading to a head spray, and a discharge valve cooperating with the connecting pipe, this valve being able to open for a determined pressure in the cylinder;
• a lower piston, linked to the cylinder by means of connection in translation, and comprising sealing means suitable for closing a chamber of variable volume comprised between the suction valve, the body and the cylinder, the lower piston being traversed by a longitudinal passage, the discharge valve being mounted so as to be able to move in the cylinder relative to the tubing independently of the lower piston, said discharge valve being biased elastically towards the tubing.

According to US-A-4,183,449, a manual pump of this type is known, the structure of which is relatively bulky and a large part of which is located above the neck of the container.

The invention aims, in particular, to provide a pump of reduced size, in particular in width, so that it can be engaged, for a good part, in the mouth of the container on which it is mounted.

In addition, FIG. 4 of FR-A-2 346 056 discloses a manual precompression pump.

It is known that the precompression of the liquid is intended to ensure a good quality of spraying and it is therefore sought to obtain a sufficient precompression rate. However, in order to keep all the effectiveness of the precompression, the pressure drops, during the flow of the liquid from the chamber of the cylinder where the precompression has been established, towards the spray nozzle, should be as low as possible.

The manual pre-compression pump structure proposed by FR-A-2 346 056 needs to be improved from this point of view.

In addition, it is preferable that priming the pump requires a minimum of effort, in terms of handling the pusher.

We also want the pump to be economical and reliable to manufacture.

According to the invention, a manual precompression pump for spraying a liquid under pressure, of the type defined above, is characterized in that the lower piston has a central passage, in which, substantially at mid-length, arms extend radially and form a kind of star, these arms carrying a central rod coaxial with the piston, of smaller diameter, elastic return means of the cylinder and of the lower piston being constituted by a helical spring, one end of which is engaged in the central passage of the piston and bears against the arms radial, and the other end of which bears against a stop integral with the internal wall of the body.

With such a structure, the diameter of the lower part of the pump can be reduced so that a large part of the pump can be engaged in the mouth, which reduces the projection on the container. In addition, the flow of liquid under pressure, during spraying, takes place through longitudinal passages, without appreciable constriction, and therefore with reduced pressure drops.

Preferably, the connecting means between the lower piston and the cylinder comprise a piston-carrying element, crossed by a longitudinal passage and ensuring a rigid connection between the cylinder and the lower piston, decompression means being provided to break the seal. established by the lower piston at the end of the stroke and allow, in particular, the evacuation of air for priming the pump and filling the cylinder with liquid.

Advantageously, the lower piston is formed by a sleeve comprising a central passage, this sleeve comprising at its end turned towards the non-return suction valve, a frustoconical sealing skirt capable of pressing against the internal surface of the body and , at its other end, another sealing skirt which is also capable of pressing against the internal surface of the body, while at least one hole is provided in the wall of the body, in particular for the evacuation of air during priming the pump, this hole being positioned so as to be permanently in the annular space between the two sealing skirts of the lower piston.

The wall of the body may include, above the first hole, a second air intake hole.

Advantageously, the discharge valve is arranged to open in the opposite direction to the flow of liquid so as to completely free the inlet of the cylinder outlet pipe, the inlet which constitutes the seat of the valve.

This discharge valve comprises a body sliding in a sealed manner in a housing of the piston-carrying element of smaller diameter and a cup sliding in a sealed manner in the chamber of the cylinder of larger diameter, the valve being traversed by at least one longitudinal channel connecting its two faces, so that a differential effect of the pressure, which acts on different surfaces between the top and the bottom of the discharge valve, controls the opening of this valve.

The discharge valve is returned by a helical spring arranged between the bottom of a housing provided in the piston-carrying element and the discharge valve.

Advantageously, the pump is equipped with a spray nozzle suitable for creating a vortex, this nozzle comprising a cap pierced with an orifice, mounted on a radial stud, a liquid supply channel being provided between the stud and the cap. to open in an annular space, while supply channels connect this annular space to the orifice; the supply channels have a prismatic shape whose section decreases from the annular space to the periphery of the orifice.

The supply channels can be formed in the bottom of the cap and delimited laterally by the flat front face of the stud, the annular space being provided in the front face of the stud and delimited by the peripheral bottom of the cap.

The invention consists, apart from the arrangements set out above, of a certain number of other arrangements which will be more explicitly discussed below in connection with an exemplary embodiment. described with reference to the accompanying drawings, but which is in no way limiting.

Figure 1 of these drawings is a perspective view of a pump according to the invention during assembly on the mouth of a container, the pusher not yet in place on the pump.

Figure 2 is a vertical axial section of the pump according to the invention, in the rest position.

Figure 3 is a view similar to Figure 2, showing the pump being primed, with the plunger fully depressed.

Figure 4 shows, similarly to Figure 2, the pump with the partially depressed plunger, during spraying.

Figure 5 is an enlarged section of a detail of the spray nozzle.

FIG. 6, finally, is a view along line VI-VI of FIG. 5.

Referring to the drawings, in particular to FIGS. 1 and 2, one can see a manual pump 1 with precompression for spraying under pressure a liquid, in particular a perfume, contained in a container 2, for example a bottle, comprising a mouth 3, generally of cylindrical shape and provided with an external thread.

The pump 1 comprises a body 4 intended to be fixed on the mouth 3. The body 4 is formed, in the example considered, by a succession of cylindrical parts 5, 6, 7, 8, 9 of increasingly larger diameters reduced when moving from top to bottom, as shown in Figures 1 and 2.

The upper part 5 comprises, at its upper end, a flange 10 projecting radially outwards, suitable for compressing a sealing washer 11 against the end of the mouth 3. The tightening of the flange against the washer 11 is provided by a sleeve 12, having an internal thread suitable for cooperating with that of the mouth 3, which it comes to cap.

The lower extreme part 9 of the body 4 has the smallest diameter and constitutes a connection piece for a dip tube 13. The transition zone between the lower extreme part 9 and the preceding part 8 is constituted by a frustoconical wall 14 whose surface internal constitutes the seat of a non-return suction valve formed by a ball 15.

A cylinder 16 is able to slide in the upper part 5 of the body under the action of a thrust exerted on a button 17 forming a pusher, against elastic return means formed by a helical spring 18.

The cylinder 16 has, at its upper part, a tube 19, of reduced diameter, connecting to a spray head 20 provided in the push-button 17.

A discharge valve 21 is arranged in the cylinder 16, with the possibility of sliding in the axial direction of this cylinder. The discharge valve 21 includes a central frustoconical stud 22 suitable for being applied to the inlet 23 of the pipe 19, which constitutes the seat of this valve. The upper part of the valve 21 comprises a cup 24 capable of sliding in leaktight manner against the internal wall of the cylinder 16; the valve 21 is extended downwards by a core 25 of smaller diameter than the cup 24. This core 25 is provided at its lower part with a skirt 26 suitable for establishing a sealed sliding of the core in a cylindrical housing 27 of a piston-carrying element 28 linked, in particular by snap-fastening, to the cylinder 16.

The valve 21 is crossed by at least one longitudinal channel 29 connecting its lower face to the upper face limited by the cup 24.

The valve 21 is urged to close by a helical spring 30 disposed between the bottom of the housing 27 and the bottom of an annular recess provided in the lower part of the valve 21.

It is thus seen that the valve 21 is urged to close in the direction of flow of the liquid which takes place from bottom to top. The valve 21 will open under the differential action of the pressure exerted on the larger surface of the cup 24 and on the smaller section of the core 25. When the valve 21 opens, the pin 22 completely clears the passage of tubing 19 so that the pressure drops are reduced to a minimum.

The piston-carrying element 28 is traversed by a cylindrical longitudinal passage 31 at its lower part, and continuing upwards, in a decreasing section, in particular cruciform, whose diameter of the circumscribed circle gradually decreases. The bottom of the housing 27 includes stop elements 32 surrounded by one end of the spring 30 and serving as centering at this end, these stop elements 32 being traversed by the extension of the passage 31 and being separated from each other by radial slots f , at least one of which is situated substantially in line with a channel 29. Under these conditions, when the valve 21 comes to bear against the stop elements 32, a relatively direct passage remains for the liquid towards the channel 29 .

The diameter of the piston-carrying element 28 is such that this element can slide inside the part 6 of the body 4. The lower part of the piston-carrying element 28 is formed by a kind of tube 33 of diameter reduced, comprising, on its outer surface connecting means, for example a thread, with a lower piston 34.

This lower piston 34 is formed by a sleeve crossed by a central longitudinal passage 35. The piston 34 comprises, substantially halfway along its central passage, arms 36 extending radially and forming a kind of star. The arms 36 carry a central rod 37 coaxial with the sleeve, with a diameter less than the diameter of the tube 33.

The rod 37 of the lower piston 34 plays a particular role: it allows, in fact, to refocus the spring 18 to prevent it, due to its length, from undergoing buckling.

The piston 34 comprises, at its lower part, sealing means formed by a frustoconical sealing skirt 38 suitable for pressing in a sealed manner against the internal wall of the part 7 of the body 4.

The piston 34 has, at its upper end, another sealing skirt 39 capable of pressing against the internal surface of the part 6.

A hole 40 is provided towards the lower end of the part 6, slightly above the constriction of the connection between the part 6 and the part 7. This hole 40 is positioned so as to be permanently in the space annular between the two skirts 38 and 39, that the piston 34 occupies the high position of FIG. 2 or the low position of FIG. 3.

Another air intake hole 41 can be provided towards the upper end of the part 6. This hole 41 is located below the skirt 39, when the piston 34 occupies the high position of FIG. 2, and at above this skirt 39 when the piston 34 is in the low position of FIG. 3.

The return spring 18 is engaged in the piston 34 to bear against the star formed by the arms 36. At its other end, the spring 18 bears against a seat s , projecting radially towards the inside of the internal surface of the part 8. This seat, inside which the ball 15 can be move, has at its upper part an internal rim capable of retaining the ball 15, while it is spaced from the wall 14.

Part 7 comprises, at its lower end, on its internal surface, a decompression bearing 42 formed in particular by longitudinal ribs, angularly spaced from one another, projecting inwards. When the skirt 38 comes to cooperate with this decompression bearing 42, the seal established between the skirt 38 and the wall of the part 7 is broken and a communication is established between the internal volume of the piston 34 and the annular chamber surrounding the piston 34.

So that the skirt 38 of the piston 36 is not damaged by the decompression bearings 42, the latter is made of a relatively flexible material, such as LDPE (low density polyethylene). The upper piston 21 is made of the same material.

On the other hand, the piston-carrying part 28 is made of a relatively rigid material, such as polypropylene or HDPE (high density polyethylene).

Parts 28 and 36 are therefore molded separately and are independent of each other.

The spray head 20 will now be considered in more detail:

As can be seen in FIG. 2, this head comprises the pusher 17 fitted on the pipe 19 and coming into abutment against an extension of the outer wall of the cylinder 16. The head 20 comprises a central pin 43 of diameter less than the upper end of the tube 19 in which it is engaged to determine annular passages allowing the liquid to reach the outlet nozzle 44.

This nozzle 44 comprises a cap 45 (see FIG. 5), pierced with a central orifice 46 centered at the top of a frustoconical cavity. The cap 45 is threaded onto a radial stud 47 of the head 20.

A channel 48 for the arrival of the liquid to be sprayed is provided between the radial stud 47 and the cap 45 to open into an annular space 49 provided at the front end of the stud 47. This annular space 49 is connected to the central hole 46 by channels 50 (FIG. 6) provided in the bottom of the cap 45.

The channels 50, as visible in FIG. 6, are limited by two converging walls, substantially tangent to the circumference of the base of the hole 46, so that the section of each channel decreases from the annular space 49 to the circumference of the frustoconical cavity.

The channels 50 are delimited, laterally, by the flat front face of the stud 47. The annular space 49, formed in the front face of this stud 47, is delimited by the cylindrical wall of the cap 45 when it is in place on the nipple.

As a variant, the channels 50 could be provided in the front face of the radial stud 47.

Channels 50 are advantageously six in number, regularly spaced.

That said, the operation of the precompression pump according to the invention is as follows.

At rest, the pump is in the position shown in FIG. 2, the body 4 containing air, the liquid being in the container 2.

The user must, first of all, in a conventional manner, prime the pump, that is to say ensure the filling the body 4 with liquid, the air being expelled.

For this, the user must press several times, generally three or four times on the push button 17.

When the user presses the push button 17, while the body 4, and in particular the part 7, are filled with air, the whole of the cylinder 16, of the piston-carrying element 28 and of the piston 34 are sunk into body 4; the valve 21 follows the movement while remaining closed. The air enclosed in the body 4 is compressed.

At the end of the downward stroke (see FIG. 3), the frustoconical skirt 38 of the piston 34 meets the decompression bearing 42, which causes the seal to break and allows the compressed air to escape around the skirt 38 in the annular passage located outside the piston 34, and to pass, through the hole 40, into the container 2.

When the user releases his push on the button 17, the spring 18 causes the piston 34 and therefore the cylinder 16 and the pusher 17 to rise. A depression is created in the body 4, and in particular in the part 7, which causes the opening of the suction valve 15 and the rise of a certain amount of liquid in the body 4.

After three or four actions on the pusher 17, the user will have filled the body 4 with liquid.

From this moment, when the user presses the plunger 17, as illustrated in FIG. 4, the depression of the cylinder 16 and therefore of the element 28 and of the piston 34, causes a rapid rise in pressure of the liquid contained in the body 4.

The valve 21 will open as soon as the pressure acting on the differential section of the valve is sufficient to overcome the action of the spring 30. The pressurized liquid will then flow through the tubing 19 towards the nozzle 44 and will be sprayed. In its retreat, the valve 21 is stopped by a frank support against the stop 32, which contributes to a good regularity of dose.

The flow of liquid occurs directly through the passage of the piston 34, the element 28 and the channel 29; in addition, the valve 21, when opening, recedes relative to the tube 19 and completely frees the entry of this tube in which the stud 22 no longer projects.

The displacement of the valve 21 takes place without causing displacement of the piston 34 and the spring 30 is chosen only as a function of the opening pressure desired for the valve 21. The difference in section between the cup 24 and the core 25 of the valve can be chosen according to the type of operation desired for the valve 21.

It should be noted that, when the pump is actuated, the user only has to overcome outside the thrust of the liquid, essentially, that the spring 18 (whose calibration may be low), to push the cylinder 16 and the piston 34. This results in great ease of operation. Spraying is ensured under good conditions thanks to the arrangement of the spraying head 20.

F

= P.S + T18 + frottement
avec

T18

égal à la tension du ressort 18,

S

égal à la section effective
du liquide (section du passage
à l'intérieur du piston 36),

P

égale à la pression du liquide.

The pump of the invention has, moreover, a great smoothness of operation, as well as a sudden drop in the handling force F (exerted on the pusher 17) that the user meets at the end of the stroke. The smooth operation is comparable to the handling force F which is defined as follows:

F

= PS + T18 + friction
with

T18

equal to the tension of spring 18,

S

equal to the effective section
liquid (passage section
inside the piston 36),

P

equal to the pressure of the liquid.

At the end of the piston 36 stroke, the term P.S becomes zero, due to the decompression bearing action 42 which cancels the pressure P, hence the gentle handling.

Claims (12)

Manual precompression pump for spraying under pressure a liquid, in particular a perfume, comprising: - A body (4) intended to be fixed on the mouth (3) of a container containing the liquid to be sprayed, this body (4) comprising, at its lower part, a nozzle (9) for connection to a dip tube (13), this nozzle (9) being provided with a non-return suction valve (15); - a cylinder (16) capable of sliding in the body (4) under the action of a pusher (17) actuated by a user, against elastic return means, this cylinder being associated, at its upper part , to a connection tube (19) leading to a spray head (20), and a discharge valve (21) cooperating with the connection tube (19), this valve (21) being adapted to open for a determined pressure in the cylinder; - A lower piston (34), linked to the cylinder by means of connection in translation, and comprising sealing means capable of closing a chamber of variable volume comprised between the suction valve (15), the body (4) and the cylinder (16), the lower piston (34) being traversed by a longitudinal passage (35), the discharge valve (21) being mounted so as to be able to move in the cylinder (16) relative to the tubing ( 19), independently of the lower piston (34), said delivery valve being resiliently biased towards the tube (19),
characterized in that the lower piston (34) has a central passage (35), in which, substantially at mid-length, arms (36) extend radially and form a kind of star, these arms (36) carrying a central rod (37) coaxial with the piston (34), of smaller diameter, elastic return means of the cylinder (16) and of the lower piston (34) being constituted by a helical spring (18), one end of which is engaged in the central passage of the piston (34 ) and bears against the radial arms (36), and the other end of which bears against a stop ( s ) integral with the internal wall of the body (4). Pump according to claim 1, characterized in that the connecting means between the lower piston (34) and the cylinder (16) comprise a piston-carrying element (28), crossed by a longitudinal passage (31) and ensuring a connection rigid between the cylinder (16) and the lower piston (34), decompression means (42) being provided to break the seal established by the lower piston at the end of the stroke and allow, in particular, the evacuation of air for priming the pump and filling the cylinder with liquid. Pump according to one of claims 1 or 2, characterized in that the lower piston (34) is formed by a sleeve comprising a central passage (35), said sleeve comprising at its end facing the anti-suction valve. back (15), a frustoconical sealing skirt (38) capable of pressing against the internal surface of the body (4) and, at its other end, another sealing skirt (39) also capable of supporting against the internal surface of the body (4), while at least one hole (40) is provided in the wall of the body, in particular for the evacuation of air during priming of the pump (1), this hole (40) being positioned so as to be permanently in the annular space between the two skirts (38, 39) for sealing the lower piston (34). Pump according to one of claims 1 to 3, characterized in that the wall of the body (4) comprises, above the first hole (40), a second air intake hole (41). Pump according to any one of the preceding claims, characterized in that the discharge valve (21) is arranged to open in the direction opposite to the flow of the liquid so as to completely free the inlet from the tubing ( 19) cylinder outlet (16), inlet which constitutes the seat of the valve. Pump according to any one of the preceding claims, characterized in that the discharge valve (21) comprises a body sliding in a sealed manner in a housing (27) of the piston-carrying element (28) of smaller diameter and a cup (24) sliding in leaktight manner in the chamber of the cylinder of larger diameter, the valve (21) being traversed by at least one longitudinal channel (29) connecting its two faces, so that a differential effect of the pressure , which acts on different surfaces between the top and the bottom of the discharge valve (21), controls the opening of this valve. Pump according to any one of the preceding claims, characterized in that the discharge valve (21) is returned by a helical spring (30) disposed between the bottom of the housing (27) provided in the piston-carrying element ( 28) and the discharge valve (21). Pump according to any one of the preceding claims, characterized in that the longitudinal passage (31) passing through the piston-carrying element (28) is cylindrical at its bottom and continues upwards in a decreasing section, in particular cruciform. Pump according to any one of the preceding claims, characterized in that the bottom of the housing (27) provided in the piston-carrying element, for the discharge valve (21), comprises stop elements (32). Pump according to any one of the preceding claims, characterized in that the lower part of the piston-carrying element (28) is formed by a kind of tube (33) having on its outer surface means for connection with the piston lower (34). Pump according to any one of the preceding claims, characterized in that it is equipped with a spray nozzle (44) capable of creating a vortex, this nozzle (44) comprising a cap (45) pierced with an orifice (46) mounted on a radial stud (47), a liquid supply channel (48) being provided on the stud (47) to open in an annular space (49), supply channels (50) connecting this annular space (49) to the orifice (46), the supply channels (50) having a prismatic shape whose section decreases from the annular space (49) to the periphery of the orifice (46 ). Pump according to claim 11, characterized in that the supply channels (50) are formed in the bottom of the cap (45) and delimited laterally by the flat front face of the stud (47), the annular space (49) being provided in the front face of the stud (47) and delimited by the peripheral bottom of the cap (45).

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