EP0016839A1 - Sprayer used in both standing and over turning attitudes - Google Patents

Abstract

A vaporizer can discharge air into a pressure chamber (7) of a pumping mechanism (2) so as to admit only liquid, in the two upright and inverted positions. According to this invention, a conventional pumping mechanism (2) is provided with a reverse inlet passage (15) which is open at one end on the pressure chamber side (7) and at the other end on the external part. from the top of the pumping mechanism (2). The reverse inlet passage (15) has an on / off control valve (13A) which can be opened when the pressure of the chamber (7) becomes greater than a predetermined negative pressure in the reverse position.

Description

The present invention relates to a sprayer which can be used both in an upright position and in an inverted position and capable of absolutely preventing any penetration of air into a pressurization chamber, in each of these two positions.

We knew. to date, sprayers comprising two suction pipes connected to the suction opening of a pump and leading respectively to the neck, and to the lower part of a container containing a liquid, such an arrangement allowing the sprayer to serve both upright and inverted position-In a sprayer of this type, the neck of the container containing the liquid must have a diameter large enough that one can thread two suction hoses. In addition, if the diameter of the neck is small, it is not possible to hold the sprayer stably through the center of this neck and, due to this lack of stability of the sprayer, the operations for spraying the liquid are find it embarrassed.

In a sprayer of this type, the switching valve for connecting the suction passage to one or the other of the two suction hoses is mounted apart from its hoses, which annoyingly limits the space available for a liquid in the container.

The applicant has produced, experimentally, - a sprayer which can be used both in the upright position and in the inverted position, in which the suction opening intended for operation in the inverted position is located at the top of the cylinder of the pump. In this case, the liquid is sucked in through the suction opening for operation in the inverted position, only when the piston has been perfectly put back in place to give the pressurizing chamber the largest possible volume, such so it is necessary to provide a pump whose resistance is sufficient to withstand a high vacuum. De _D read, with such a provision, it It is difficult to introduce a fairly large amount of liquid into the pressurization chamber by suction.

The invention relates to a sprayer which can be used both in an upright position and in an inverted position, comprising a liquid suction valve and an air suction prohibition valve for these two positions, these valves being included in the pump so as to allow the suction of a sufficiently large quantity of liquid, both in the upright position and in the inverted position.

According to the invention, it is avoided to give the sprayer too large dimensions, so as not to reduce the space available for liquid in the container.

The invention also relates, for operation in the inverted position, to a suction passage constituted by an outer sleeve disposed around the pump cylinder, which reduces the outside diameter of the upper part of this cylinder and makes it possible to arrange the pump. in the center of the container neck.

Other characteristics and advantages of the invention will emerge more clearly from the description which follows, given with reference to the appended drawings, giving by way of explanation but in no way limiting, several embodiments.

• - la figure 1A est une coupe verticale d'un pulvérisateur utilisable aussi bien en position droite qu'en position renversée, ce pulvérisateur constituant une première forme de réalisation de l'invention.
• - la figure 1B est une coupe faite dans une partie importante de ce pulvérisateur, montrant en particulier une variante de la soupape d'arrêt disposée dans le passage d'aspiration de liquide, utilisée dans le cas du fonctionnement en position renversée.
• - la figure 2A est une coupe verticale d'une seconde forme de réalisation du pulvérisateur selon l'invention ;
• - les figures 2B et 2C sont respectivement une coupe et une vue en perspective d'une partie importante de cette seconde forme de réalisation du pulvérisateur, ces vues représentant en particulier une variante de la soupape d'arrêt logée dans le passage d'aspiration, et servant au fonctionnement en position renversée.
• - la figure 2D est une vue en coupe d'une partie importante d'une autre variante de la soupape d'arrêt;
• - la figure 3 est une coupe verticale d'une troisième forme de réalisation du pulvérisateur selon l'invention.
• - les figures 4 et 5 sont des coupes verticales, respectivement d'une quatrième et d'une cinquième formes de réalisation du pulvérisateur selon l'invention.

In these drawings:

• - Figure 1A is a vertical section of a sprayer usable both in the upright position and in the inverted position, this sprayer constituting a first embodiment of the invention.
• - Figure 1B is a section through a large part of this sprayer, showing in particular a variant of the shut-off valve arranged in the liquid suction passage, used in the case of operation in the inverted position.
• - Figure 2A is a vertical section of a second embodiment of the sprayer according to the invention;
• FIGS. 2B and 2C are respectively a section and a perspective view of a large part of this second embodiment of the sprayer, these views representing in particular a variant of the stop valve housed in the suction passage, and used for operation in the reverse position.
• - Figure 2D is a sectional view of a large part of another variant of the stop valve;
• - Figure 3 is a vertical section of a third embodiment of the sprayer according to the invention.
• - Figures 4 and 5 are vertical sections, respectively of a fourth and a fifth embodiment of the sprayer according to the invention.

In the first embodiment of the sprayer according to the invention (FIGS. 1A and 1B) a pump 2 is fixed to the neck of a container 1 intended to contain liquid. A spray head 3 is disposed above this pump 2. This head 3 is provided with a nozzle and it is attached to the upper end of a plunger 5 which acts both as a piston for the pump 2 and passage for the liquid.

This pump 2 comprises a pressurization chamber 7, delimited by this plunger 5 and by an associated cylinder 6. This cylinder plunges into the container 1 and, at its upper end, it is detachably connected to the mouth of this container 1 by means of a screwed sleeve 8. moreover, a helical spring 9 having the role of urging the plunger upwards is housed in the cylinder 6. This plunger 5 is introduced into the cylinder 6 by the upper side of this last to dominate the force of the spring 9 and it can slide in this cylinder. At its lower part, the cylinder 6 is provided with a suction valve 10, while an exhaust valve (not shown) is housed in the upper part of the plunger 5. In addition, a small sleeve 11 is formed in one piece with the lower end of cylinder 6.

By virtue of such an arrangement, it is possible, by pressing on the spraying head 3, to pressurize the liquid contained in the chamber 7 so as to forcely cover the exhaust valve and to spray the liquid through the nozzle 4. A such an arrangement is known and has already been used.

If the internal pressure is not taken into account, various types of valve can be used as the suction valve capable of closing and opening the passage both in the upright position and in the inverted position, for example a ball valve, or a tongue valve. It is possible, if desired, to place the suction valve 10 at the top of the cylinder 6, although, in the embodiment shown, this suction valve is located at the bottom of this cylinder.

Several transverse holes, or bores 12 are drilled in the intermediate part of the small sleeve 11. These holes are intended to cooperate with a valve body 13 of cylindrical shape, made of an elastic material, for example made of soft plastic material or made of soft rubber, this valve body being housed in the small sleeve 11. The assembly constituted by the valve body 13 and by the holes or bores, 12 forms a stop valve 13A. The cylindrical body 13 of the valve has a lower base. There is a flange, or flange, 13a directed inwards, intended to prevent the valve body 13 from deforming in line with the lower base.

When the sprayer operates in an upright position, the cylindrical body 13 plugs the holes 12, which prevents any suction of air by a suction passage which will be discussed below, intended for operation in the inverted position.

On the contrary, when the sprayer operates in the inverted position, the ball 17a of a valve 17 which will be discussed below, intended to prevent the suction of air, is applied strongly against the valve seat 16 of frustoconical shape.

Consequently, when the vacuum which reigns in the pressurizing chamber is pushed beyond a given value, the upper part of the cylindrical body 13 of the valve is folded inwards so as to release the transverse hole 12.

A sleeve 14 is mounted around the cylinder 6.

In the inner face of this sleeve 14 is practiced a suction passage 15, used in the case of operation in the inverted position, this passage being in the form of a groove which goes from the upper part of the container 1 to transverse hole or bore 12 of the small sleeve 11. The sleeve 14 has a lower part 14a, of cylindrical shape, which projects from the lower end of the cylinder 6 downwards and is attached to a small cylinder 12,. in which is housed this lower part 14a.

The lower end of the small sleeve 11 constitutes a valve seat 16, of frustoconical shape, flared downwards. A ball 17a is introduced into a cylindrical part 14a on the lower side of this frustoconical valve seat, so as to constitute a valve 17 intended to prohibit the suction of air during operation in the inverted position. A cup-shaped part 18, located in the cylindrical lower part 14a, prevents this ball 17a from falling. Several grooves 18a are formed in the outer peripheral face of this cup 16. A suction pipe which goes to the lower part of the container 1 intended to receive a liquid, is arranged at the lower end of the lower cylindrical element 14a. As a result, when the pressure inside the pressurizing chamber 7 is almost zero, when the sprayer is used in an upright position, the liquid flows into this chamber 7 through the hose. suction 19, by the groove 18a, by the cylindrical body 13 of the valve and by the suction valve 10. In this case, the ball is not applied firmly against the frustoconical seat of valve 16, since the liquid flows outside the part 18 in the form of a cup.

It is possible to obtain a valve seat 16a of frustoconical shape by giving a flared shape to the lower end of the cylindrical body 13 (FIG. 1B) instead of providing a frustoconical seat 16 at the lower end of the small sleeve 11.

. The operation of the sprayer as described above, which can be used both in the upright position and in the inverted position, is as follows.

When the spray head 3 is pressed, the sprayer being in the upright position, the plunger 5 of the pump 2 descends. As the suction valve 10 is closed, the liquid contained in the chamber 7 is pressurized, so that it is sent, via the exhaust valve (not shown), into the nozzle 4 to be sprayed by the latter. The exhaust valve closes automatically when the pressure in the pressurizing chamber drops, which stops spraying.

Then, when the spray head 3 is released, the latter and the plunger 5 are lifted by the spring 9 which lowers the pressure in the chamber 7 practically to a relative vacuum. The suction valve 10 therefore opens, which allows the suction of liquid by the suction pipe 19, by the groove 18 and by the cylindrical body 13 of the valve.

During this aspiration, the ball 17a is not in abutment against the seat 16 of frustoconical shape, since this ball is applied, under the effect of its weight, against the part 18 in the form of a cup, such so that the liquid flows through the outer peripheral groove 18a of this part 18. The vacuum obtained inside the cylindrical body 13 of the valve is a little deeper than outside of this same body. However, since the air suction shut-off valve 17 remains open, the transverse hole or bore 12 is never released by the cylindrical body 13, contrary to what happens in the case of operation in the inverted position, which will be described later, so that the air cannot not enter the pressure chamber 7.

In the case of operation in the inverted position, the liquid contained in the chamber 7 is subjected to a pressure which closes the suction valve 10, when the spray head 3 is pressed. If we continue by pressing this 3, a high pressure arises in the chamber 7, so that the exhaust valve opens by force and the liquid is sprayed by the nozzle 4. This exhaust valve closes automatically when the chamber pressure drops, and spraying ends.

When the spray head 3 is released, the plunger 5 is returned to its initial position under the action of the spring 9. However, the ball 17a of the valve 17 for preventing air suction stops against the seat of the valve 16, of frustoconical shape, under the action of its weight. In addition, the suction valve 10 opens. Consequently, there is a total vacuum in the chamber 7 and in the cylindrical body 13 of the valve, so that this cylindrical body releases the transverse hole 12, which allows the liquid to enter the pressurization chamber 7 by the suction passage 15 of the operation in the inverted position and by the transverse hole 12. Since the sou-. Pape 17 for air suction prohibition remains closed, it cannot penetrate air by suction into the chamber 7 through the suction pipe 19, although, in this case, the latter is in the air free. If then, the head 3 is pressed, a spraying occurs as described above.

As mentioned above, in the sprayer which can be used both in an upright position and in an inverted position in accordance with the invention, provision is made, at the lower part of the pump 2, a suction valve 10 intended to operate in an upright position, a valve 13 of cylindrical shape which acts as an air suction prohibition valve and a suction valve used respectively for operation in the position and for operation in the inverted position, and finally an air suction prohibition valve 17, for operation in the inverted position, so that, for these two positions, the air is absolutely prevented from entering the pressurization chamber 7 and that only the liquid is sucked.

The suction valve 10, the cylindrical valve body 13 and the air suction prohibition valve 17 allowing the sprayer to carry out sprays both in an upright position and in an inverted position, are arranged end to end. and located in the lower part of the pump 2, so that they never decrease the space intended for the liquid in the container. In addition, if the cylindrical body 13, the sleeve 14 and a valve 7 for preventing air suction are added to an ordinary type sprayer, the latter can also operate in the inverted position.

The suction passage 15. Intended for operation in the inverted position consists of a sleeve 14 surrounding the cylinder 6 of the pump 2. It is therefore not necessary to give a large diameter to the upper part of this pump.

It is therefore easy to attach the pump 2 to the neck of the container and to keep this pump stable in the center of this neck, even when the latter has a small diameter.

A second embodiment of the invention will be described below, with reference to FIGS. 2A to 2D. In this embodiment, the cylindrical body 13 which constitutes the shut-off valve 13A of the first embodiment is located on the outer periphery of the small sleeve 11 of the cylinder 6. If we refer to FIG. 2A, we sees that the central step 21a of the cylindrical body 21 of the valve is held in contact with the shoulder 22a of the inner surface of the sleeve 22 which surrounds the cylinder 6, so as to secure the cylindrical body 21 inside this sleeve. Then, the cylindrical element 21 is placed around the cylinder 6 by the lower side of the latter. Once this cylindrical element is mounted, a passage for the liquid is formed in the inner face of the cylindrical body 21 and outside the small sleeve 11 of the cylinder. In addition, several ribs 23 formed on the inner peripheral surface of the sleeve 22 at suitable intervals are provided on the cylinder 6 to secure the sleeve 22 to the pump 2. Suction passages 24, used for operation in the inverted position, are alternated with the ribs 23 and they communicate with the pressurization chamber 7 through the lower chamber of the small sleeve 11.

The cylindrical body 21 of the valve is fixed, by its upper part, to the inner peripheral surface of the sleeve 14, while the lower part of this body 21 constitutes a tilting part 21b, applied strongly against the small sleeve 11 of the cylinder 6, of absolutely airtight. In addition, the air suction prohibition valve 17 of the first embodiment is constituted as follows in the second embodiment: the part 18 in the form of a cup of the first embodiment no longer exists in this second embodiment, and there is provided an element 25 for supporting the ball 17a, at the lower part 14a of the sleeve 14. In addition, the seat 17b of the ball 17a is located at the top of this lower part 14a. In addition, a passage 26 in the form of a groove for the liquid is formed in the interior wall of this lower part 14a. The elements of this second embodiment other than those described above are identical to those of the first embodiment, and this second sprayer operates in substantially the same manner as that of the first embodiment, both in upright position than in the inverted position, concerns the suction of the liquid in the pressurization chamber and the prohibition of the penetration of air into this chamber. In addition, this second embodiment provides the same advantages as the first.

The tilting part 21b of the cylindrical body 21 of the valve is designed not to bend downwards, at its end, in order to open the suction passage 24, only when there is practically a vacuum in the pressurization chamber 7, during operation in the inverted position.

Figures 2B and 2C show a variant of the cylindrical body 21 of the second embodiment. According to this variant, a cylindrical valve body 27 is fixed to the small sleeve 11 of the cylinder 6 and there is provided, on the lower periphery of this cylindrical body 27, a tilting part 27a which is applied sealingly against the peripheral surface inside of the sleeve 22. In addition, several ribs 27b are provided on the periphery of the upper part of the cylindrical valve body 27, so as to form liquid passages between the cylindrical body 27 and the sleeve 22. The latter is provided internally of ribs 28 intended to reinforce its coupling to the small sleeve 11.

FIG. 2D represents another variant of the cylindrical element 27 of the second embodiment. This case, the tilting portion 27a of the cylinder 27 shown in Figure 2B presents sou member _b as a tilting part 29 directed laterally, for sealing engagement, on its poutour, with the inner peripheral wall of the sleeve 22.

A third embodiment of the invention will be described below, referring to FIG. 3. In this new embodiment, the cylindrical body 13 of the valve of the first embodiment is located on the periphery of the upper part of the cylinder 6. The cylindrical body 31 of this new embodiment has a base fixed to the peripheral part superior of cylinder 6 of the pump 2. The lower part of the cylindrical body 31 forms a skirt 31a which spreads outwards, and the end of this skirt is in sealed contact with the inner peripheral surface of the sleeve 22.

The other parts of the sprayer according to this third embodiment are identical to those of the second embodiment, and, like the sprayer of the first embodiment, this new atomizer can ensure safe suction of liquid into the delivery chamber. under pressure, while preventing the penetration of air into this chamber, both in the upright position and in the inverted position.

FIG. 4 represents a fourth embodiment of the invention, according to which the cylindrical body 21 used in the second embodiment is interposed between the small sleeve 11 of the cylinder 6 and an intermediate intermediate support element, located in the sleeve 22 , on a part of the latter located above the valve seat 17b. The cylindrical valve body 42 of this new embodiment has a base attached to the lower intermediate support part 41, while an upper part 42a of this body, intended to seal, is housed in the small sleeve 11 .

Consequently, the pressurization chamber 7 is in communication with the suction passage 24, in the case of operation in the inverted position, when this sealing part 42a deforms inwards. When this part 42a does not deform, the liquid suction pipe which leaves from the sleeve 22 downwards is in communication with the pressurization chamber 7 via the central hole, or bore, of the cylindrical body. valve 42.

The parts of this new embodiment other than those which have just been described are identical to those of the second embodiment and the sprayer according to this fourth embodiment is able to suck liquid into the delivery chamber. under pressure 7, both in the upright position and in the inverted position, while preventing the penetration of air into this chamber.

FIG. 5 shows a fifth embodiment, according to which the cylindrical valve body 42 used in the fourth embodiment, is held in the small sleeve 11 of the cylinder 6. The cylindrical valve body 51 _' has an upper base fixed firmly inside the small sleeve 11, while a lower skirt 51 a of this cylindrical body ensures tight contact with the inner peripheral valve of a sleeve 52. This is intended to carry the cylinder 6 and it has the same outside diameter over its entire length. The suction passage 53 intended for operation in the inverted position, exists only on one side of the upper part of the sleeve 52. The other parts of the sprayer according to this fifth embodiment are identical to those of the second embodiment.

In this fifth embodiment of the sprayer, the pressurization chamber 7 communicates with a passage 53 for operation in the inverted position, when the skirt 51a deforms inward. This sprayer can therefore, like that of the first embodiment, suck liquid into its pressurization chamber, while preventing the penetration of air into this chamber, both in the upright position and in the inverted position, and it thus provides the same advantages as that of the first embodiment.

Claims (5)

1. Sprayer which can be used in both the upright and inverted positions, of the pressure accumulation type, comprising a pump (2) constituted by a cylinder (6) and a piston (5), said pump (2) being provided for be driven by the vertical stroke of a spray head (3), so that, when said spray head (3) rises, the pressure prevailing in a pressurization chamber (7) delimited by this piston (5 ) and by this cylinder (6) is canceled to the point of leaving a vacuum, thus allowing a liquid to rise from a container by suction in said chamber (7) via a suction valve ( 10), for operation in the upright position, while, when said spray head (3) descends, a high pressure is established in said chamber (7), which forcibly opens an exhaust valve when the pressure rises above a level of a given value, allowing said liquid to be sprayed dried by a nozzle (4) housed in said spray head (3), this sprayer being characterized in that it comprises a suction passage (15) intended to operate in the inverted position and a shut-off valve (13A ) housed in this suction passage (15) and designed to open only when the pressure prevailing in said pressurization chamber (7) has dropped to a value slightly higher than a given value, in the case the operation of this sprayer in the inverted position. 2. A sprayer according to claim 1, characterized in that said stop valve (13A) has a hole, or bore (12), transverse made in a lower part of said cylinder (6) and a cylindrical valve body (13 ) fixed inside or outside said part of said cylinder (6) in which this hole (12) is drilled. 3. Sprayer according to claim 1 characterized in that it comprises a sleeve (14) surrounding the cylinder (6) of the pump (2), so that the passage between the sleeve (11) and this cylinder (6), said suction passage (15) being open at its upper end and communicating, at its lower part, with said pressurization chamber (7) of said cylinder (.6), this sprayer further comprising an elastic cylindrical valve housed between said cylinder (6) and said sleeve (11) and serving, in the operation in the inverted position, to put said suction passage (15) either in the open state or in the closed state. 4. Sprayer according to claim 1 characterized in that it comprises a sleeve (14) surrounding said cylinder (6) of said pump (2) and serving to delimit with this cylinder (6) said suction passage (15) , in the case of operation in the inverted position, said suction passage (15) being open at its upper end and communicating, at its lower end, with the free space of a small sleeve (11) which projects from the the lower end of said cylinder (6), and an elastic valve body (13), of cylindrical shape, interposed between the lower end of this small sleeve (11) and this sleeve (14) and, having the role, in the operating in the inverted position, putting said suction passage (15) either in the open position or in the closed position. 5. Sprayer according to any one of claims 2 to 4, characterized in that it comprises a check valve housed in the suction passage (15), for operation in the upright position, and connected to the end lower of said cylinder (6), this check valve having the role of preventing air from entering said pressurization chamber when this sprayer is in the inverted position.

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