EP1514608A1 - Dosing device comprising an elastic actuator - Google Patents

Abstract

The elastic swiveling operating lever (2) for the dosing device (1) has a flexure (15) connected to a sheath (4) surrounding the cylinder (10) of the pump body. The cylinder contains a piston (11) with a sawtooth profile rod (12) protruding from its open end. The outer end of the lever has two inward-projecting flexible levers (13,14) which can ratchet the piston upwards when the lever is squeezed.

Description

Field of application and state of the art

The invention relates to a metering device with a one or more parts Dosing housing, a pump unit and a manually operated Actuator are assigned, wherein the Dosiergehäuse comprises at least one metering opening.

Such metering devices are for the application of pharmaceutical or cosmetic media generally known. Such a metering device has a Dosiergehäuse, made of plastic is. The dosing housing comprises a screw cap, which on a Medium container is screwed. Concentric within the metering housing a pump unit is arranged, which can be operated as mechanically Thrust piston pump is executed. For actuating the push piston pump an actuating unit is provided with the hubbeweglichen Part of the pump unit is connected and a finger rest for a manual operation of the pump unit comprises. The dosing housing is with an application extension, in particular in the form of a spray head or in the form of a nose olive. In the application extension, the part of the metering is at least one metering provided by means of the particular liquid medium of the Pumping unit via at least one discharge channel into the environment can be carried out.

It is also known (DE 197 49 514 A1), a metering device in the form a disposable dispenser with a Dosiergehäuse to be provided in the essentially from the trained as Nasenolive application extension and a molded on the application extension finger rest exists. The metering housing has a receptacle for lifting movable Holding a medium storage, which is designed as an ampoule. The ampoule is part of the pump unit. By a pressure by means of a Thumb and simultaneously holding the dosing over Forefinger and middle finger in the area of the finger rest becomes the ampoule pressed into the housing, creating a piercing needle pierces a sealing piston inside the ampoule and the outlet the medium in a discharge and a metering in one upper forehead of the nose olive releases.

The object of the invention is a metering device of the aforementioned To create kind, which with simple means a good medium discharge allows.

This object is achieved in that the metering a the Pump unit has enveloping enveloping body, at least one between a rest position and an actuating position elastic pivotally mounted actuator is integrally formed. The enveloping body forms on the one hand a casing of the metering device. On the other hand it serves to arrange the actuator. The integral molding of the actuator allows a very simple design of the dosing device with few components. Preferably is the Dosiergehäuse including the envelope body and the Actuator made of plastic. This is cost effective Dosing devices in large quantities produced.

In an embodiment of the invention, the metering orifice is an application extension assigned to the metering, and on the application extension is a cap made up of elastic tubing, the is provided with the metering opening. The cap is raised under tension and thus is substantially non-positively on the application extension held. Since the cap is a separate component, it is possible different types of dosing at different Provide caps so that the appropriate cap is modular can be pulled onto the application extension.

In a further embodiment of the invention, the application extension is with provided at least partially outer flow control, and the cap is at least in a partial section than with the Flow control cooperating hose valve formed. The cap has thereby a double function, since they next to the Dosing or Ausbringcharakteristik also assumes a valve function.

In a further embodiment of the invention, the elastic cap at least a ring profiling, the form-fitting in the assembled state with a corresponding ring profiling of the application extension interacts. This ring profiling prevents the cap by pressurizing the pump unit in particular in their functional state as a hose valve from the application extension triggers or changes its position on the application extension.

In a further embodiment of the invention, the actuator is lever-like mounted on the enveloping body and has at its free Stirnendbereich a at a Betätigungshub with a linear guide part of Pump unit operatively connected thrust element. Thereby is a pivotal movement of the actuator in an operating stroke transferred to the pumping unit. This is particularly advantageous Push element integrally formed on the actuator. hereby will further simplify the production of the metering device reached.

In a further embodiment of the invention, the thrust element is a Assigned supporting element, which is the thrust element in an attack the linear guide part mechanically stabilized. This will ensure that an exact Hubdosierung upon actuation of the lever-like Actuator is achieved. Elastic deformations, in particular Bends of the pusher element are caused by the support element prevented.

In a further embodiment of the invention, the support element is in one piece formed on the actuator. This is done with very simple Means a secure stabilization of the thrust element in a Movement of the actuator achieved.

In a further embodiment of the invention, the support element is at a distance arranged to the thrust element and as limit stop for formed an elastic deformation of the thrust element. The Support element supports and stabilizes the pusher so that a secure and constant operative connection with the linear guide part the pump unit is reached.

In a further embodiment of the invention is in an application extension the metering a hemispherical metering chamber provided the with multiple Strömungsleitprofilierungen in their wall area is provided, which open at the metering opening, and the metering chamber is provided with a spherical filler, which is in the hemisphere shape the dosing chamber is tuned. This is a particularly good Flow guidance for the auszubringende medium achievable.

In a further embodiment of the invention, the application extension of Dosing with an integrally formed in the dosing Abreißkappe provided in the demolished state as a cap is provided for the application extension and the metering opening. The tear-off cap thus has a dual function, since it on the one hand closes the metering opening in the original condition that has not yet been torn off and on the other also in the demolished state so on the Application extension can be placed, that a sealing of the metering opening is reached. Preferably, the tear-off is on her the Abreißnippel opposite side provided with an open cavity, matched to the outer contour of the application extension is and so a force-locking pressing the tear-off on the application extension allows.

In a further embodiment of the invention is an actuating tab as an actuator provided, which are flush in the envelope surface of the envelope body integrated and through slots in the enveloping body for a pivoting movement is cut free. This will be aesthetically pleasing and space-saving manner an actuating function for the metering device achieved. Preferably, two actuating tabs on integrated opposite sides of the envelope body in this.

Fig. 1

zeigt in einer Seitenansicht eine Ausführungsform einer erfindungsgemäßen Dosiervorrichtung,

Fig. 2

die Dosiervorrichtung nach Fig. 1 in einer Schnittdarstellung entlang der Schnittlinie II-II in Fig. 1,

Fig. 3

eine Ansicht der Dosiervorrichtung nach den Fig. 1 und 2 von unten,

Fig. 4

in einer Schnittdarstellung eine weitere Ausführungsform einer erfindungsgemäßen Dosiervorrichtung,

Fig. 5

in vergrößerter Darstellung eine Ansicht von unten auf einen Stirnbereich eines Dosiergehäuses der Dosiervorrichtung nach Fig. 4 auf Höhe einer Dosieröffnung,

Fig. 6

in vergrößerter Schnittdarstellung einen Ausschnitt des Stirnbereiches des Dosiergehäuses auf Höhe der Dosieröffnung und

Fig. 7

in perspektivischer Darstellung eine weitere Ausführungsform einer erfindungsgemäßen Dosiervorrichtung.

Further advantages and features of the invention will become apparent from the claims and from the following description of preferred embodiments of the invention, which are illustrated by the drawings.

Fig. 1

shows a side view of an embodiment of a metering device according to the invention,

Fig. 2

1 in a sectional view along the section line II-II in Fig. 1,

Fig. 3

a view of the metering device according to FIGS. 1 and 2 from below,

Fig. 4

in a sectional view of a further embodiment of a metering device according to the invention,

Fig. 5

in an enlarged view a view from below of a front region of a metering of the metering device of FIG. 4 at the level of a metering,

Fig. 6

in enlarged sectional view a section of the end region of the metering at the level of the metering and

Fig. 7

in a perspective view of another embodiment of a metering device according to the invention.

A metering device 1 according to FIGS. 1 to 3 is for the application intended for cosmetic media. In the same way is such a metering device but also suitable for pharmaceutical purposes. The Dosing device has a metering 4, 5, 10, which in a Upper region has an application extension 5. The dosing housing 4.5 has a jacket-like enveloping body 4, in which in the following closer manner described a lever-like actuator. 2 is integrally formed. The actuator 2 is by means of a solid-state joint 15 on the metering housing 4, 5, i. on the enveloping body 4, mounted elastically pivotable.

In the metering housing 4, 5 is a pump unit 10 to 12 coaxial a central longitudinal axis of the metering device 1, which as Thrust piston pump is executed. The pump unit has a fixed with the metering 4, 5 and in particular the enveloping body 4 connected Hollow cylinder section 10, in which a piston portion 11 linearly movable slidably arranged. The piston portion 11 is within a metering chamber 9 of the metering 4, 5 movable and is at its protruding from the metering chamber 9, rear Area provided with a linear guide member 12, the step-shaped Profiles for the stepwise linear movement of the piston section 11 has.

The application extension 5 is hollow and forms an inside Application chamber area. The metering chamber 9 is open in this Application chamber area over. In the application chamber area Strömungsleitprofilierungen 8 are provided, along the stroke direction of the piston portion 11 are aligned. In an upper area of the application extension are the internal flow guide profiles 8 within the application chamber with openings for Outside of the application extension 5 out. The flow axes these openings are with a radial component to the Hubachse the piston portion 11 aligned. In an upper face area the application extension 5 has a substantially flat Surface on which in a radial plane relative to the stroke axis of the piston section 11 is aligned. On the front end area of the application extension 5, web-like flow guide surfaces 7 are provided.

On the application extension 5 is a cap 3 made of an elastic Plastic material mounted, the hood over the entire Application extension 5 extends and at an unspecified Ring collar portion of the envelope 4 ends. In the frontal area of the Application extension 5, the elastic cap has a relatively small Material thickness, which increases steadily down to the envelope 4 towards. As the material thickness increases, the elastic reduces Resiliency of the cap 3. The cap 3 is by means of an internal Ring shoulder 16 in a corresponding annular groove 17 on the Application extension 5 held axially positively. In addition, the cap 3 mounted under elastic tension on the application extension 5. In her thin-walled forehead cap area, on the frontal area of the application extension 5 rests, the cap 3 with a as Spray nozzle formed metering opening 6 provided. In the thin-walled upper end cap area is a jacket portion of the protective cap 3 thin-walled designed and with an annular stepped shoulder Mistake. At the level of the stepped paragraph are leading to the outside Openings of the Strömungsleitprofilierungen 8 of the application extension 5 provided. The wall thickness of the Stirnkappenbereiches and in particular the skirt portion of the cap 3 is so thinly dimensioned in the case of pressurized liquid medium in the region of Openings of the Strömungsleitprofilierungen 8, the shell portion of Cap 3 is widened in the manner of a hose valve, so that the liquid medium to the flow guide 7 and to the metering 6 flow in the region of the outside of the application extension 5 can. Just below the outward-facing openings in the application extension 5, the cap 3 has an unspecified Sealing collar, which optionally by means of an intervention in a corresponding Ring groove on the outer circumference of the application extension 5 a Sealing down causes. The effluent through the openings Medium can therefore be promoted only up to the metering 6 out become. The flow guide 7 and the metering 6 are coordinated so that the medium flow a swirling learns and is atomized at the metering 6. The metering opening 6 thus represents an atomizer opening.

In order to achieve a pumping movement of the piston portion 11, that is tab-like obliquely outward and downwardly projecting actuator 2 provided with a web-shaped thrust element 13, the integrally formed in a lower end portion of the actuator 2 is and in the unloaded state of the actuator 2 in a acute angle to the stroke axis of the piston portion 11 upwards and protrudes inwards. The thrust element 13 has at its inner Stirnendbereich a cam portion, which is suitable for engagement in the sawtooth profilings 12 of the linear guide part provided is. The cam portion protrudes at the front end region of the thrust element 13 from the linear guide part down. Diametrically opposite is the front end region of the thrust element 13 with a not provided closer support shoe, the nose-like to the actuator 2 protrudes. With the nose-like support shoe acts Support member 14 together, above the pusher 13th is integrally formed on the actuator 2. The support element 14 also protrudes at an acute angle - on the unloaded state of the actuator 2 relative to the stroke axis of the piston section 11 inside. With its inside forehead area is the support member 14 in close proximity to the support shoe arranged the thrust element 13. In the unloaded state protrude the push element 13 and the support member 14 as shown 2 at an acute angle to each other. The support element 14 is used to a deflection of the thrust element 13 in an engagement in the To avoid sawtooth profilings 12 of the linear guide part. The support member 14 thus stabilizes the pusher element 13 at an engagement in one of the profilings 12 of the linear guide part.

To perform an actuating stroke for the metering device 1, the actuator 2 is pressed from its shown in Fig. 2, unloaded starting position by the fingers of one hand to the enveloping body 4 and thus inwards. In this case, the support cam of the thrust element 13 engages with one of the sawtooth profilings 12 of the linear guide part. In a further Nachinnenschwenken the actuator 2, a linear movement is inevitably exerted on the linear guide part upwards. In order to prevent the support cam of the pusher element 13 from sliding out of the corresponding profiling 12, the support element 14 is provided for stabilizing the latched or hooked push position of the pusher element 13, ie the support cam, which in the depressed state of the actuator 2 due to certain elastic Deformations of the thrust element and the actuator 2, the support shoe engages behind stabilizing. As soon as the pressure force on the actuator 2 is removed, the elastic tension of the actuator 2 causes a return to the starting position shown in FIG. In this case, the support cam again disengaged from the linear guide part. The linear guide part and thus also the piston portion 11 remain in the set during the actuation stroke position. Since a compression of the liquid medium within the metering chamber 9 is effected by a stroke movement of the piston section 11, liquid medium is inevitably pumped outwardly through the openings in the region of the application extension 5 and sprayed into the environment via the metering opening 6 in such a reciprocating movement. After removal of the pressure force on the actuator 2, the piston portion 11 then remains in the set pressure equilibrium position. Only a renewed actuation of the actuator 2 leads to a renewed lifting of the piston portion 11 and consequently to a new Dosieraustrag.
In a lower region of the thrust element 13, a stop extension 18 is integrally formed, on the one hand forms an end stop for the actuator 2 and on the other a bearing surface for a safe installation of the metering device 1 in an upright position in addition to the footprint in the region of a bottom of the envelope 4 offers.

In the embodiment according to FIGS. 4 to 6, the metering device 1a two diametrically opposed, wing-like trained Actuators 2a on, each with obliquely inwards and are provided upwardly projecting pushers 13a. The two Actuators 2a protrude from an unspecified annular body in one piece, on a collar of a metering 4a rests. The annular body forms an enveloping body in the sense of the invention. The metering housing 4a forms in its interior a substantially cylindrical metering chamber, in which a piston 11a of a pump unit slidably arranged. The piston 11a has at its the metering chamber facing away from sawtooth-like profiles on, which belong to a linear guide part. The actuators 2a are according to the embodiment of FIGS. 1 to 3 by means each of a solid-state joint on the ring body and thus relatively arranged elastically pivotally to the metering housing 4a. A Pressure load from the outside on the actuators 2a causes about the pushers 13a analogous to the embodiment described above a lifting movement of the piston 11a. Preferably takes place the pressure load on both actuators 2a simultaneously and evenly, so that both push elements 13a same at the same time Exert pressure loads in the stroke direction on the piston 11a. At a subsequent discharge, the actuators move 2a back to its unloaded initial position, causing the pushers 13a inevitably relative to the linear guide part in the direction be moved below profiling. In a renewed Load on the actuators 2a is an attack of the pushers 13a at the corresponding lower lying, sawtooth-like Profiles.

In an upper area is the metering housing 4a with an application extension 5a, which is a hemispherical application chamber encloses. In the wall of the application chamber are total three Strömungsleitprofilierungen provided in the form of flow grooves 19, which open tangentially into an annular metering opening 20 and cause such a twisting. The application chamber is by a filled spherical filler 21, the so on the dimensions is matched to the application chamber that the filler 21 in the Press fit is held within this application chamber (Fig. 4). The liquid medium from the metering chamber can thus only on the Flow grooves 19 to the filling body 21 over to the metering 20th be encouraged. The metering opening 20 is designed as a spray nozzle, so that with the help of the Drallgebungsfunktionen the mouth areas the flow grooves 19 a good atomization of the liquid Medium is achieved when exiting to the outside. The dosing device 1a is intended in particular for cosmetic purposes.

In the unused state, the metering opening 20 through a tear-off 22 closed, which is hat-shaped and therefore a formed in the molded state upwardly open hollow chamber 23. The Hollow chamber 23 is on the outer contour of the application extension 5a tuned, so that the tear-off 22 after tearing in upside down Condition on the application extension 5a is plugged and so a detachable closure of the metering opening 20 causes.

In the embodiment according to FIG. 7, the dosing device 1b has a Application extension 5b, which also has a molded on Abreißkappe 22b is provided. After tearing off the tear off cap 22b this can be reversed and as a releasable closure on the application extension 5b are attached. In the embodiment of FIG. 7 is an enveloping body 4b of the metering housing of the metering device 1b pear- or cone-shaped and as a rotationally symmetrical hollow body executed. Inside the enveloping body 4b are the medium storage and the pump unit provided. The enveloping body 4b itself has diametrically opposite two tab-shaped actuators 2b, which are integrated flush in the contour of the enveloping body 4b and the rest are formed integrally with the enveloping body 4b. The mobility the tab-like actuators 2b is achieved in that each actuator 2b by two slots, which leads to a lower Edge region of the envelope 4b are open, are cut free. Both actuators 2b have analogous to the representation of FIG. 4th On the inside thrust elements, which with a corresponding linear guide part the pump unit are in operative connection. Regarding the Actuation and dosing function is for the embodiment of FIG. 7 to the description of the embodiment of FIGS. 4 to 6 directed.

Claims (13)

Dosing device with a one- or multi-part dosing, which is associated with a pump unit and a manually operable actuator, wherein the dosing at least one dosing comprises, characterized in that the dosing (1, 1a, 1b) enclosing the pump unit enveloping body (4, 4a , 4b), on which at least one between an idle position and an actuating position elastically pivotally mounted actuating member (2, 2a, 2b) is integrally formed. Dosing device according to the preamble of claim 1 or claim 1, characterized in that the dosing (6, 20) is associated with an application extension of the dosing, and in that on the application extension (5) a cap (3) made of elastic plastic material is mounted, the is provided with the metering opening (6). Dosing device according to claim 2, characterized in that the application extension (5) is provided with at least partially outer flow control surfaces, and that the cap (3) is formed at least in a partial section as cooperating with the flow control hose valve. Dosing device according to claim 3, characterized in that the elastic cap (3) has at least one annular profiling (16) which in the assembled state cooperates positively with a corresponding annular profiling (17) of the application extension (5). Dosing device according to claim 1, characterized in that the actuating member (2) is mounted like a lever on the enveloping body and at its free Stirnendbereich a in an operating stroke with a linear guide part of the pump unit operatively connected thrust element (13, 13a, 13b). Dosing device according to claim 5, characterized in that the thrust element (13, 13a, 13b) is integrally formed on the actuating member (2, 2a, 2b). Dosing device according to claim 6, characterized in that the thrust element (13) is assigned a support element (14) which mechanically stabilizes the thrust element (13) in the event of an attack on the linear guide part. Dosing device according to claim 7, characterized in that the support element (14) is integrally formed on the actuating member (2). Dosing device according to claim 7, characterized in that the thrust element (13) relative to the linear guide part (12) at an acute angle - seen in the pumping direction - attacks. Dosing device according to claim 8, characterized in that the support element (14) is arranged at a distance from the thrust element (13) and designed as a limit stop for an elastic deformation of the thrust element (13). Dosing device according to one of the preceding claims, characterized in that in an application extension of the metering a hemispherical metering chamber is provided which is provided with several Strömungsleitprofilierungen (19) in its wall region, which open at the metering orifice (20), and that the metering chamber with a spherical filler (21) is provided, which is tuned to the hemispherical shape of the metering chamber. Dosing device according to one of the preceding claims, characterized in that the application extension (5a) of the dosing housing is provided with a tear-off cap (22) integrally formed in the region of the dosing opening (20), which in the demolished state serves as closure cap for the application extension (5a) and the dosing opening (20) is designed. Dosing device according to one of the preceding claims, characterized in that an actuating lug (2b) is provided as the actuating member, which is integrated flush in the envelope surface of the enveloping body (4b) and cut free by slots in the enveloping body (4b) for a pivoting movement.

Images