EP0829307A2 - Dispenser for fluids - Google Patents

Abstract

The dispenser comprises a main body (4,5) and a medium accumulator (8), and discharges by movement between end positions. The metered contents of the accumulator are discharged through an outlet (30) almost or entirely in a single stroke, and/or it incorporates an oblong hollow body, typically a hollow steel needle. The accumulator outlet (18) can be upstream of the first outlet (30), while its inlet (17) is further upstream. The accumulator preferably protrudes into a closed chamber (12). Mixing equipment for a second medium with the first can be provided, thus functioning as a propellant and being delivered by pump into the accumulator.

Description

The invention relates to a dispenser for the discharge or distribution of media, which can be gaseous, liquid, pasty and / or powder. The medium can already be finely atomized within the device upstream of the media outlet or when it leaves it. So even the smallest amounts of media form a very large effective surface. The medium can be a pharmaceutical, cosmetic or technical active ingredient. This is carried out by a manual actuation that shortens at least a part of the dispenser in such a way that it completely detaches from the discharge device at the boundary of the media outlet.

A storage is provided for the medium, which is filled as a dosing chamber during the manufacture of the device. It can also be refilled from a main store after each media discharge, similar to a pump chamber. Instead of just a single store, several stores can also be provided one behind the other and / or in a ring-shaped row next to one another and in successive ones Operating steps with breaks must be emptied one after the other through the media outlet.

The invention has for its object to provide a dispenser for media, in which disadvantages of known training are avoided and with which in particular even the smallest amounts of media can be safely stored and essentially completely discharged.

According to the invention, a memory or its space accommodating the medium has a very elongated shape, the width or diameter of which can be less than 5, 3 or 1 mm, so that the medium contained therein takes the form of a long, thin pin. The inside width of the cannula store can correspond to four or six times its wall thickness and the length of the cannula or store room can correspond to four or six times its inside width, whereby these values can represent maximum or minimum values. The wall thickness is expediently constant over the circumference and the length of the storage body. The storage body can be formed in a simple manner by a section of a cylindrical hollow needle made of plastic, steel, such as stainless steel, transparent material, such as glass, or the like, so that a very simple manufacture results. The storage body contains non-polymeric or non-glass material, such as metal or the like, regardless of the medium.

Irrespective of the design described, a body can be provided on a unit of the device which can be moved for discharge actuation relative to the media outlet and which opens a closure of a chamber in the course of the actuation movement, for example by pricking. The space of this chamber can directly adjoin the stored medium, the opening body or at least partially absorb the memory and be designed as a pressure chamber which is under positive pressure before opening. The opening body can be formed directly by the memory.

It is advantageously provided that an overpressure is built up on a first partial path of actuation in the device which adjoins the starting position and which can permanently act on the stored medium from sides turned away from one another, so that the flowable medium initially does not yet have any effect on the memory Performs flow movements. In a subsequent part of the actuating movement proceeding in the same direction, the medium is relieved of the pressure on one of the sides mentioned and line-connected on this side to the media outlet without any intermediate valve, so that the medium from the pressure which is still effective on the other side Storage and suddenly flows out through the media outlet.

It is particularly advantageous if the accumulator is arranged essentially completely and for the most part without contact within a pressure or pumping chamber of a fluid pump, such as a gas or air pump, in such a way that one or more accumulator inlets in at least one actuating position or in all actuating positions for the fluid and / or a spaced-apart storage outlet for the medium are connected to the pressure chamber or are exposed to the pressure prevailing therein. The accumulator or another piercing spike can then penetrate the movable chamber closure, for example a thrust piston, from the inside in the course of the actuating movement in such a way that its accumulator outlet lies sealed outside the pressure chamber and the fluid now flowing into the accumulator inlet presses the medium straight out through the accumulator outlet.

Both the medium and the fluid can be sterile packed and sealed pressure-tight within a storage unit, which is to be inserted into the base body having the media outlet without opening the storage spaces in the starting position and then emptied by actuation. For this purpose, this base body does not require a member which immediately opens the closure, such as a piercing mandrel, a needle or the like, since this opening member is already part of the storage unit.

Each of the two stores, in particular the fluid store, can also form a unit prefabricated with the base body and be firmly connected to the base body via an escapement in such a way that it can only be moved with respect to the base body after application of an actuating force which is substantially greater than that immediately afterwards actuating force to be applied over the remaining distance. This results in a sudden and very rapid actuation movement which causes high flow velocities of the medium or fluid and improves its atomization. The inhibition, which could also be a snap connection securing against retraction, is expediently formed by a predetermined breaking point, so that a one-piece design of the storage body with the base body is possible.

The media storage device can also be provided on a holding body separate from the storage body for the fluid or from another supporting body and form with it a preassembled unit which can be exchangeably attached to the supporting body when the latter is in the starting position.

Fig. 1

ein erfindungsgemäßer Spender in teilweise geschnittener Ansicht,

Fig. 2

einen Ausschnit der Fig. 1 in vergrößerter und geringfügig abgewandelter Ausbildung und

Fig. 3

eine weitere Ausführungsform in einer Darstellung entsprechend Fig. 2.

In addition to the claims, these and other features also emerge from the description and the drawings, the individual features each individually or separately several can be realized in the form of sub-combinations in one embodiment of the invention and in other fields and can represent advantageous and protectable designs for which protection is claimed here. Embodiments of the invention are shown in the drawings and are explained in more detail below. The drawings show:

Fig. 1

a dispenser according to the invention in a partially sectioned view,

Fig. 2

a section of Fig. 1 in an enlarged and slightly modified training and

Fig. 3

a further embodiment in a representation corresponding to FIG. 2.

The discharge device or the dispenser 1 has two units 2, 3 which can be displaced axially linearly relative to one another as discharge actuation, which essentially form the entire device and of which the unit 2 can permanently lie completely within the unit 3 in all actuation positions. As the outermost, dimensionally stable part, the unit 2 has a base body 4 and the unit 3 has a base body 5, which are each provided with an exposed handle 6, 7 for manual actuation. A storage device 8, namely a needle-thin tube, is provided completely within the base body 4, 5 and close to the handle 6, which lies within a storage device 9 for a gaseous fluid without contact with most of its length. All components are provided in an axis 10 and, except for the bodies 5, 8, are rotationally symmetrical.

The inner tube surface of the reservoir 9 delimits a cylindrical storage chamber 11 for a medium which, like powder, can be filled into the reservoir 8 so densely packed that its fluidity is significantly reduced compared to its loosened state, namely so tough that it is not without external influence can flow itself. The reservoir 9 forms a chamber 12 for the fluid which is at least a hundred or two hundred times larger in volume. The chamber 12 is coaxially annular in cross section in the region of the reservoir 8, on the periphery of which it adjoins. The base body 4 or another body is provided as a support body 13 for the memory 8 and sealed on the bottom carrying the memory 8. The body 4, 13 has a tubular jacket 14 with a constant internal and / or external cross section over its length, which can be made of transparent material so that the memory 8 is visible radially from the outside. At the lower end of the jacket 14, a closure and holding body 15 is attached, which is fixed with a section that is at most as long as its diameter and is inserted tightly into the inner circumference of the jacket 14 and via an annular shoulder on the lower end face of the jacket 14 with an outer End section bears, the outer circumference of which forms an equally wide continuation of the outer circumference of the jacket 14. The cover 15 could also be formed in one piece with the jacket 14 or be interchangeably arranged by a snap connection or the like.

The bodies 8, 15 are at a distance from a closure or piston 16, which in the starting position lies completely inside the chamber 21 or the jacket 14 and is at a distance from the upper end of the body 4, 13. The memory 8 has a distance between its ends and closer to the lower end as a memory inlet 17 several distributed over its circumference Openings that cross through his jacket and each have a smaller width than the chamber 11. The openings 17 can be circular in their axial view or parallel to the axis 10 or elongated in the circumferential direction of the memory 8. The upper end of the accumulator 8, which is at right angles perpendicular to the axis 10, delimits as an accumulator outlet 18 an opening which is the same width as the accumulator space. This end of the storage jacket forms an annular piercing tip 19 of the same width as the rest of the storage device 8. The storage width means the inside and / or the outside width of the storage device 8.

At a distance from and between its end faces, the piston 16 has a circular disc-shaped membrane 20 or the like in the center, which is formed in one piece with the rest of the piston 16 from a material that is softer and more elastic than the materials of the components 8, 14, 15 is. The membrane 20 forms the bottom surfaces of two oppositely conically widened depressions which have their greatest width in the end faces of the piston 16. The diameter of these bottom surfaces or the membrane 20 can be equal to the outside width of the accumulator 8 or the tip 19 or, on the other hand, be slightly larger. If the piston 16 is moved with an actuating plunger or the like against the accumulator 8, the pressure in the chamber 12 increases until the end 19 has completely penetrated the membrane 20 without detachment of particles and completely in the plane of the upper end face of the membrane 20 lies within the piston 16. The piston 16 is then fixed by a stop on the bottom surface of the chamber 12 or the like. This flat bottom surface, which can be formed by the body 15, connects tangentially to the lower boundaries of the openings 17 and the outer circumference of the accumulator 8 in such a way that the pressure in the openings 17 and the opening 18 Chamber 12 is pending. The accumulator 8 is sealed with its shorter, lower end section immediately adjoining the openings 17 and the storage space in the chamber bottom, firmly seated in a blind hole depression and striking with its end surface, so that it is subjected to the pressure by the piston 16 and the membrane 20 does not evade. The width of the memory 8 is less than half, a third or a quarter of the width of the chamber 12.

The accumulator 8 and the piston 16 can be inserted from the lower or from the upper end into the jacket 14 in such a way that an overpressure prevails in the chamber 12 after assembly and in the starting position. With the opening 22 of the chamber 12 removed from the bottom 15, the jacket 14 can be tapered at an acute angle on the outer circumference of its associated end section. The piston 16 is guided on the inner circumference of the jacket 14 delimiting the chamber 12 with two annular sealing lips 23 sealed under radial prestress, which are curved in part-circle in axial section, at an axial distance from one another, from the ends of the piston 16 and from the membrane 20 in each case in the region of one of the depressions and in the middle of the axial extension of their transition into the piston circumference linearly touch the inner circumference of the chamber 12. In the starting position, the upper end face 24 of the piston 16 is set back from the opening 22 or the associated end face of the jacket 14 by at least half the length of the piston 16. The unit 2 with the accumulator 8, base 15 and piston 16 can be preassembled with the accumulator fillings and then exchangeably attached to the unit 3.

With any hollow actuating plunger 25 that can be inserted through the opening 22, the unit 2 can also be actuated without the unit 3 and the medium can thus be extracted from the piston 16 distal end of the plunger 25 are discharged. The plunger 25 could also form a one-piece or preassembled unit with the piston 16 and project freely from the opening 22 in the starting position. Here, the plunger 25 is fixedly connected to the unit 3 or the base body 5 and lies with its flat lower end surface in the starting position only at a gap distance from the end surface 24. The outer width of the plunger 25 is equal to the outer width of the piston 16 adjacent to the seals 23, so that the plunger 15 engaging permanently in the jacket 14 and the unit 2 are guided radially to one another with the least radial play.

The plunger 25 lying in the axis 10 like the piston 16 and the closure 20 is penetrated over its entire length by an outlet channel 26, which it delimits in one piece over its entire length and its entire circumference. A lower end section 27 of the channel 26 is widened at an acute angle downwards to a width which corresponds to the greatest width of the associated depression in the end face 24 and can be equal to its length. The conical section 27 serves to accelerate the flow of the fluid-media mixture when it emerges from the outlet 18 or the depression in the end face 24.

The longest part of the channel 26 adjoining the piston 16 is provided in a tappet mandrel separate from the base body 5, the upper end of which is offset in the outside width is firmly seated in a sleeve-shaped tappet holder 29. The mandrel 28 has the same outside width as the outside of the holder 29. The holder 29 is shorter than the mandrel 28 or half the length of the mandrel, which strikes axially with its upper end within the holder 29 on an annular bottom surface. This is penetrated by a constantly wide continuation of the cylindrical part of the channel 26, which with the interposition of one expanded chamber or swirl device 31 opens into the media outlet 30. In the device 31, the medium is swirled or set in rotation about the nozzle axis 10 of the atomizing nozzle 30, so that the fluid-media mixture atomized under this swirl flow emerges from the nozzle 30 by less than a half or a half millimeter in width. The upper end of the mandrel 28 could also adjoin the device 31 or its swirl chamber.

The outlet nozzle 30 is provided at the upper end of a nozzle 32, the crowned or spherically curved end wall of which passes through it on the convex outside and which is suitable for insertion into a body opening, for example a nostril. The jacket of the connecting piece 32, which is formed in one piece with the end wall and the holder 29, surrounds the plunger 25 over the entire length and the part 4, 13 over a partial length on the circumference with a radial spacing, since the holder 29 is free against the body 4 from the inside of the end wall. 13 protrudes and in the starting position does not reach the opening 22, into which it projects in the pump end position. The connecting piece 32 with the holder 29 is a one-piece component separate from the body 5 and is fixedly attached to the body 5 via a connection 33, such as a snap connection. The connector 32 could also be formed in one piece with the body 5.

The body 5 is essentially formed by a cap 34 with an end wall 35 elongated in axial view, from which a cap jacket 36 only projects downwards and the outside of which also forms the elongated handle 7. The end wall 35 is penetrated by connecting or snap members at the lower end of the jacket of the connecting piece 32, these links positively contacting the inside of the end wall 35. The jacket 36 could also be omitted, so that the part 34 is formed only by the end wall 35 is on the underside of the unit 2 and an escapement 38 protrude in any position. In the lower edge of the jacket 36 there is at least one cutout 37 penetrating the latter for engaging the thumb of the user, since the handle 6 formed by the outside of the base 15, including the longitudinal section of the unit 2 adjoining the socket 32, is completely within the cap in every position 34 lies. The cutout 37 is provided in one or both longer sides of the jacket 36 which is long round or elliptical in the axial view like the handle 7.

The unit 2 or the components mentioned are connected to one another in the starting position with the unit 3 via the escapement 38, which can be in the plane of the end wall 35 or at a distance below it. This escapement could engage in a resilient manner, with increased friction, via a predetermined breaking point or the like in the outer circumference of the body 4, 13 at a distance between the ends thereof. When the escapement 38 is overcome by the discharge actuation, the escapement force is abruptly canceled and the units 2, 3 can be moved much more smoothly against one another until the piston 16 or the like stops. On the outside of the end wall 35 and on the handle 7 there is a sleeve-shaped apron 39 with a radial distance within the outer circumference of the handle 7, which can be formed in one piece with the body 5 and the body 4, 13 on the outer circumference with a radial distance and surrounds at a distance from its ends. The spigot 32 can be radially centered or guided on this apron 39, as a result of which its snap members are secured in the locking position.

When not in use, the socket 32 can be completely covered with a plug cap 41 which closely surrounds the socket 32, extends to the handle 7 and covers the nozzle 30.

For commissioning, the cap 41 fixed by friction or spring catch is pulled off. With the thumb, pressure is pressed inside the cap 34 against the handle 6 and with further fingers of the same hand on both sides of the connecting piece 32 in the opposite direction against the handle 7 with increasing force until the escapement 38 disengages. As a result, the end of the plunger 25 is suddenly moved against the end face 24 without touching the membrane 20, so that in the further course of the piston 16 moves against the body 8 and the cutting edge 19 when the membrane 20 is closed and the pressure in the chamber 12 increases becomes. As soon as the lower end face of the membrane 20 arrives at the cutting edge 19, this begins to penetrate the membrane 20 until it protrudes only slightly over the upper end face of the membrane 20, so that only the inlet 17, but not the outlet 18, in the Chamber 12 is located.

Through the now outside the chamber 12 and inside the upper recess of the piston 16, the medium is conveyed into this recess and then into the channel section 27, since the fluid from the chamber 12 through the inlet 17 at the lower end of the media filling into the Chamber 11 penetrates and mixes the medium upwards in the direction of discharge from the nozzle 30, pulls it out of the chamber 11 directly into the linear channel 26, 27 and conveys it into the flow device 31 or the nozzle 30 without further deflection. After the piston 16 stops at the bottom of the chamber 12, the inlet 17 lies within the space formed by the lower piston recess. If this space is sealed off from the chamber 12 by the end face or stop face of the piston 16, the fluid flow is suddenly interrupted. This space can also remain connected to the chamber 12, so that from this until pressure equalization Fluid flows in and the chamber 11, as well as the channel paths 26, 27, 30, 31, is completely blown free of the medium.

In this mutual end position of the units 2, 3, the handle 6 has approximately reached the lower inside of the end wall 35. With a separate design, the piston 16 is then not retractable with the plunger 25 because the engagement of the piston 16 in the body 8 forms a retraction device. The unit 2 can still be pulled down from the plunger 25 and pulled out of the cap 34 and the nozzle 32 and, if necessary, replaced by a new unit 2. When the piston 16 is connected to the plunger 25 in a tensile manner, the plunger 25 could carry out a return stroke into the starting position, as a result of which the chamber 12 could be filled with air again by means of a suitable, valve-controlled inlet. The nozzle 32 is mounted from the outside, namely from the handle 7, on the cap 24 and the body 4, 13. All components, possibly up to the memory 8, are made of plastic and can be produced as injection molded parts.

The lower end of the reservoir 8 or the chamber 11 is pressure-tightly closed with a closure 40, which according to FIG. 1 can be formed in one piece with the closure 15 and expediently extends close to the inlet 17. For example, the lower end of the casing 8 can act as a cutting edge if the storage 8 is pressed axially into the base 15 for mounting and is thus fixed solely by friction on the inner and outer circumference and the part of the base 15 lying within the cutting edge is used as a closure 40 penetrates into the memory 8.

1, the axis of the respective opening 17 can be perpendicular to the axis 10. However, it can also be inclined at an acute angle to the axis 10 in the discharge direction according to FIG. 2 lie. This also applies to the bottom surface 42 of the storage space, which is formed by the closure 40 and is distant from the outlet 18 and tangentially adjoins the boundary of the opening 17, and can also be curved or convexly curved. 2, the closure 40 is formed by a component which is separate from the closure 15 and lies entirely within the reservoir 8, so that the closure 40 is preassembled with the reservoir 8 and this can then be connected to the body 13 or the base 15. The bottom 14 can also lie completely within the casing 14 and its lower end surface can be provided in one plane with that of the casing 14 or the store 8.

3, the bottom 42 of the storage space is formed by a sieve through which the fluid flows in the discharge direction, so that the stored medium does not close the opening 17 like the opening 18 as in the embodiments according to FIGS. 1 and 2, but rather the inlet 17 opens between the closure 40 and the bottom 42 into a media-free space which lies entirely within the tube 8. The upper end of the tube 8 is here tapered at an acute angle, so that the outlet 18 and the tip 19 are narrower than the storage base 42 or the rest of the tube 8. The closure 40 could also be integrally formed with the tube 8, e.g. in that the lower end of the tube is closed by radial crushing, angling or the like.

All features of all embodiments can be combined with each other, e.g. so that any feature can be provided in any embodiment. All of the stated effects and properties can be provided exactly as indicated, only approximately or essentially as indicated or provided to be very different.

Claims (13)

Dispenser for media with at least one base body (4, 5), one or the like via a hub. discharge actuation which can be converted into different actuation positions including a starting position and an end position and a media store (8), characterized in that the metered media content of the store (8) essentially or the like with a stroke. the discharge actuation is to be discharged almost completely through a media outlet (30), and / or that the media store (8) contains an elongated hollow body, such as a hollow needle made of steel or the like. Dispenser according to Claim 1, characterized in that the store (8) has a store outlet (18) upstream from the media outlet (30), and in particular that the store (8) upstream from the media and / or store outlet (30, 18) has a store inlet (17) and that preferably the media storage (8) is arranged freely above in a substantially closed chamber (12). Dispenser according to claim 1 or 2, characterized in that means for admixing a fluid in the medium it is provided that in particular the fluid is provided for conveying the medium and that a pump is preferably provided for conveying the fluid into the reservoir (8). Dispenser according to one of the preceding claims, characterized in that means for pressure loading the memory (8) are provided on its outside, that in particular the pressure loading means in one of the actuation positions the medium in the memory (8) through the memory outlet (18) and / or load the accumulator inlet (17) and that preferably means are provided for relieving the pressure of the accumulator outlet (18) when the medium is pressurized by the accumulator inlet (17) in a further actuation position. Dispenser according to one of the preceding claims, characterized in that the reservoir (8) forms part of a valve, that in particular the reservoir (8) forms a valve body (19) with its reservoir outlet (18) and that the reservoir (8) in the starting position with respect to the media outlet (30) is closed in a pressure-tight manner. Dispenser according to one of the preceding claims, characterized in that a displacement body or slide (16) can be displaced with respect to the accumulator (8) with the discharge actuation, that in particular the slide (16) is a piston slidingly guided on a raceway and that preferably the slide (16) a membrane (20) or the like to be pierced by the memory (8). having. Dispenser according to claim 6, characterized in that the slide (16) delimits a pressure chamber (12) connected to the accumulator (8), in particular in the starting position the memory (8) is at a distance from the slide (16) and that preferably the slide (16) forms a slide casing and the membrane (20) which is axially spaced from at least one end of the slide casing. Dispenser according to one of the preceding claims, characterized in that the store (8) is arranged in a fixed position on a support body (13), in particular that the support body (13) holds the store (8) essentially over its entire length and / or with a radial distance surrounding protective sheath (14) and that preferably the memory (8) engages with one end section sunk into a wall (15) of the support body (13). Dispenser according to claim 8, characterized in that the support body (13) forms a preassembled unit (2) with the store (8) and / or a support body lock (15, 16), that in particular the support body (13) forms the pressure chamber ( 12) and that preferably the closure forms a piston (16) of the pump and has a larger outer width than the width of the reservoir (8). Dispenser according to one of the preceding claims, characterized in that the base body (4) has an actuating plunger (25) delimiting an outlet channel (26) and movable with the discharge actuation relative to the accumulator (8), the outer width of which is substantially larger than the accumulator width, in that in particular in the starting position of the actuating plunger (25) in the region of an end face (24) of the pump piston (16) without touching the inside of the pump piston (16) without contact and preferably that the actuating plunger (25) is in any actuation position without intervention in the inside of the pump piston on the outside. Dispenser according to one of the preceding claims, characterized in that in the starting position the store (8) lies at an axial distance from a handle (6, 7) and / or a discharge nozzle (32) of the base body (4, 5), that in particular the support body ( 13) in the starting position is connected to the base body (5) via a disengageable escapement (38) and that the support body (13) and the base body (5) are preferably formed in one piece. Dispenser according to one of the preceding claims, characterized in that the media outlet (30) provided on the base body (5) is formed by a component separate from a handle (7) of the base body (5), that in particular the outlet port (32) is essentially over its entire length is designed as a separate component and that preferably the outlet connection (32) with snap-in members (33) engages tightly in the handle (7). Dispenser according to one of the preceding claims, characterized in that the store (8) has an opening (17) passing through its jacket, that in particular the opening (17) is provided as a store inlet in the region of an end face adjoining the outside of the store and in that preferably the memory (8) has a constant width over its length.

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