EP4399032A1 - Liquid dispenser - Google Patents

Abstract

The invention relates to a drop dispenser (10) for discharging a liquid in drops, in particular for discharging a pharmaceutical liquid in drops. The drop dispenser has a liquid reservoir (14) for storing the liquid prior to the discharge process and a discharge opening (16) which is associated with a drop-forming geometry (18). The drop dispenser (10) has a pump device (40), by means of which liquid can be pumped out of the liquid reservoir (14) and to the discharge opening (16) so that the liquid collects on the drop-forming geometry (18) and is released from the drop-forming geometry (18) when a sufficient quantity of liquid is collected. The drop dispenser (10) according to the invention has a flat housing (12), within which the liquid dispenser and the pump device are arranged, and the outer shape of the flat housing (12) has a maximum width orthogonally to a main axis (2) of the housing, said maximum width being at least 25% greater than the maximum thickness of the outer shape of the housing (12) orthogonally to the main axis and orthogonally to the width. An actuation handle (24) which can be pressed in is provided on a lateral surface of the housing (12) in order to actuate the pump device (40).

Description

liquid dispenser

FIELD OF APPLICATION AND PRIOR ART

The invention relates to a drop dispenser for dispensing a liquid drop by drop, in particular for dispensing a pharmaceutical liquid drop by drop. Such a drop dispenser can be used, for example, for ophthalmic purposes.

A drop dispenser according to the invention, like generic drop dispensers, has a liquid reservoir for storing the liquid before it is discharged, and a pumping device, by means of which liquid can be conveyed from the liquid reservoir to a discharge opening of the drop dispenser. A drop formation geometry is assigned to the discharge opening, so that the liquid can collect at this drop formation geometry and, if the amount of liquid collected is sufficient, separate from the drop formation geometry as individual drops.

Drop dispensers of this type allow liquid to be discharged in a well-dosed manner.

TASK AND SOLUTION

The object of the invention is to provide a drip dispenser that can be carried safely and easily in everyday life and that is easy to use.

According to the invention, a drop dispenser of the generic type is proposed for this purpose, which has the described components of a liquid reservoir, a pump device and a discharge opening. When ready for sale, the liquid reservoir is preferably filled with a pharmaceutical liquid. In particular, it can be a preservative-free liquid, with the dispenser being designed for use with such a preservative-free liquid in such a way that the entry of germs from the outside is effectively prevented, in particular by a securely closing discharge valve and/or by a ventilation channel that is provided with a sterile filter that removes at least 99.9% of germs from the incoming air. The ventilation channel can also be provided with a ventilation valve. The discharge opening is provided in the area of a droplet formation geometry that is suitable for the formation of individual droplets of an essentially reproducible size. For example, it can be a cup-shaped drop formation surface or a substantially planar drop formation surface surrounded by a tear-off edge. When not in use, the discharge opening and the drop formation geometry are preferably protected by a protective cap that can be slipped onto the housing.

A particularly compact design is primarily proposed, in which the drop dispenser has a flat housing. This flat housing contains the liquid reservoir and at least the essential part of the pumping device. All structurally significant parts of the dispenser that remain stationary relative to one another during operation are regarded as housings within the meaning of the invention.

A flat design is understood to mean a design in which a maximum width of the housing exceeds the maximum thickness of the housing by at least 25%, preferably by at least 50%, particularly preferably by 100% or more. It is therefore particularly preferred if the housing is twice as wide as it is thick. The length of the housing preferably exceeds the width, more preferably by at least 50%.

Such a flat housing is easy to take with you and is particularly suitable for being stowed in a trouser pocket. It is preferably a comparatively small dispenser with a width of preferably 3.6 cm or more, but particularly preferably less than 6 cm. The thickness of the housing is preferably less than 1.8 cm, more preferably 1.5 cm or less. The length of the housing is preferably at least 4 cm, but particularly preferably 5 cm or more. The length preferably does not exceed 10 cm and is particularly preferably 8 cm or less.

The main axis of a drop dispenser according to the invention extends from a storage base to the discharge opening and/or is defined by the alignment of the discharge opening or a central axis of the liquid storage.

Preferably, a cross section of the housing relative to the viewing direction of the main axis is provided with an essentially elliptical cross section, at least in a partial area of preferably at least 40% of the length of the housing. This means that the cross section is not rectangular or rectangular with corners rounded in the shape of a quarter circle, but has a non-uniform radius of curvature corresponding to an ellipse and is larger in the area of a front side and a rear side compared to the short side surfaces. This elliptical shape is of particular advantage in a compact dispenser according to the invention, since the back with a correspondingly gently rounded shape can rest securely on the index finger, the middle finger and the ring finger when an actuating surface arranged opposite on the front is pressed. This promotes the ability to position the drop dispenser well at the same time and then to be able to operate it safely and sensitively.

However, the compact external dimensions of the housing are preferably combined with a liquid reservoir that is nevertheless comparatively large. The internal volume of the liquid reservoir is preferably at least 5 ml, more preferably at least 10 ml. The internal volume of the liquid reservoir is preferably not more than 30 ml.

In this case, an internal volume of the liquid reservoir is preferably at least 50% of the volume enclosed by an outer contour of the drop dispenser with the protective cap possibly removed, preferably at least 60%. Thus, preferably at least half of the volume of the drop dispenser is formed by the internal volume of the liquid reservoir. The volume enclosed by the outer contour of the dropper without a cap is preferably between 10 cm ³ and 60 cm ³ , in particular between 15 cm ³ and 30 cm ³ .

This aspect of the invention relating to the ratio of internal volume and external volume can also be advantageous without the described flat design, with the further sub-aspects described in this description of the dispenser also being able to be additionally provided with such a dispenser without a flat design.

In order to achieve a large volume of the liquid reservoir in relation to the volume of the outer contour, it can be advantageous if the liquid reservoir extends in the direction of the main axis into the area of the pumping device, so that the pumping device, in particular its Pump chamber, located at the same level as the liquid reservoir. In particular, the liquid reservoir can have a partial section of the internal volume of the liquid reservoir on the left and right side of the pump chamber, based on the width of the housing. In addition to the fact that an overlapping design makes ideal use of the available installation space, the overlapping of the pump chamber with the liquid reservoir also makes it very easy to achieve a very wide inlet into the pump chamber, which helps prevent air from collecting here that could cause liquid to be sucked in could disturb the pumping device. The inlet between the liquid reservoir and the pumping chamber is preferably not less than 2 mm ² at the narrowest point. In a drop dispenser according to the invention, the discharge takes place by means of the pump device already mentioned. This is provided within the housing and is actuated by means of a depressible and preferably pivotable actuating handle. If the drop dispenser has a protective cap, this is preferably adapted in such a way that when it is in place it covers the actuating handle or otherwise prevents unwanted actuation of the actuating handle.

The operating handle can be provided on a side surface spanning the thickness of the dispenser. This design can be advantageous with regard to the design of the pump device, since the pump device can then be configured very simply with a piston that can be moved in the transverse direction, with a comparatively large piston stroke being possible.

However, in order to promote a compact design of the dispenser and convenient operation, it is preferred if the operating handle is provided on a front side of the housing that spans the width, in particular in a central arrangement. Despite the flat design of the dispenser, an operating handle provided here can be comparatively large and thus permit pleasant and well-dosed actuation. The operating handle is preferably arranged in a width-centric arrangement on the front side. In relation to the width, the operating handle preferably takes up more than half of the available space on the front. The width of the actuating handle is particularly preferably at least 20 mm, in particular at least 25 mm. In particular with such a comparatively large actuating handle arranged on the front, it is advantageous if the protective cap can cover the actuating handle in a protective manner and is preferably also sufficiently stiff to prevent unintentional actuation of the actuating handle when the protective cap is in place.

The actuating handle preferably acts on a pump device with a piston unit that can be moved orthogonally to the main axis and to the width. Due to the thin construction, the space for such a pumping device and in particular its pump stroke is very limited here. However, the low output quantity per actuation of preferably between 5 pl and 30 pl allows the arrangement of a suitable pump despite the flat design. The piston unit can be a piston unit with a piston sliding on a cylinder surface. Due to the small amount of installation space available, however, a piston unit as a membrane part that is at least partially made of an elastically deformable material is advantageous. A peripheral edge of the membrane part is attached to a pump chamber component, so that in particular central area can be pressed under the action of the actuating handle to the opposite rear side. The pump device preferably has an inlet valve and an outlet valve, in particular in the form of valves that open as a function of pressure. The respective ducts, the inlet duct and the outlet duct, are preferably provided on the inside of the rear of the housing.

The piston unit preferably has an elastically deformable compensating section, by means of which the connection to the actuating handle is formed, so that the pivoting movement of the actuating handle can be converted into a translational movement of the piston.

The actuation handle itself can be moved either purely in translation or can be pivoted relative to the housing. It preferably stands out in terms of color from the housing, in particular from a surrounding housing shell.

The actuating handle can be formed by a single component which is connected to a housing part via a multi-part hinge or a film hinge. A design with a multi-part actuating handle is also possible. An outer part can be provided here, which can be designed in particular from an aesthetic point of view, and an inner part, which can be used in particular for coupling to a piston unit and is designed in particular from a technical point of view. If the actuating handle is designed in multiple parts, the outer part can be connected in one piece to a housing part and/or the inner part can be connected to the housing by a multi-part hinge.

With regard to the housing itself, different aspects are considered to be particularly preferable.

In a preferred embodiment, it is provided that the pumping device has a pumping chamber which is delimited at least in sections by a pumping chamber component. This pump chamber component, which preferably also at least partially defines an inlet from the liquid reservoir and a channel between the pump chamber and discharge opening, is designed in one piece with a reservoir wall component which at least for the most part forms a delimiting wall of the liquid reservoir. This common one-piece component thus represents the main component of the dispenser and in particular ensures a complete seal between the wall and the pump chamber component. Furthermore, such a one-piece design facilitates the ideal use of the interior of the housing as a liquid storage. This aspect of the one-piece pump chamber and reservoir component can also be advantageous without the flat design described, with the further sub-aspects described in this description of the dispenser also being able to be additionally provided in such a dispenser without a flat design.

Preferably, the drop dispenser, particularly when configured with a one-piece pumping chamber and storage component of the type described, has a separate housing shell which is pushed onto the pumping chamber component, particularly from the side of the discharge opening. The housing shell can in particular have an opening for the discharge opening, it being preferred if the discharge opening is not formed directly by the housing shell but rather by the pump chamber and storage component protruding through the opening or by another separate housing component. In this way, a design can be achieved in which the separate housing shell does not come into liquid contact, as intended, so that, for example, no relevant conditions have to be met when selecting the material.

If the actuating handle is designed in one piece with a housing part, it can in particular be the housing shell mentioned, to which the actuating handle is pivotably articulated by means of a film hinge. Alternatively, the actuating handle can be designed to be pivotable by means of a multi-part hinge. With such a hinge, a housing-side hinge section is preferably provided on an outside of the pump chamber component, in particular below the described housing shell.

An intermediate space between an outside of the pump chamber component and an inside of the housing shell can assume additional functions. In particular, a restoring spring for restoring the actuating handle can be arranged here, in particular in a position offset relative to the pump chamber. Furthermore, the gap can be used to provide a ventilation channel here. This can in particular be a channel which is peripherally delimited at least in a partial section by the pump chamber component and the housing shell. A design can be advantageous in which a groove is provided on an outside of the pump chamber component, which groove is closed by the inside of the housing shell to form a ventilation channel, in particular a capillary channel, so that a channel is formed.

A possible design provides that the pumping device has a pumping chamber which is delimited at least in sections by a pumping chamber component and that the liquid storage rather it is delimited by a wall which is formed at least for the most part by a storage wall component, preferably by one of two storage chamber components. In this case, the pump chamber component and the at least one storage wall component are formed by at least two separate components, in the case of two storage wall components by three separate components. In particular, this makes it possible to use a pump chamber component which is used in different dispensers in the same way, while the storage wall component or components is or are specially adapted to the desired flat shape of the dispenser.

In particular, the pump chamber component can be formed by a component with a rotationally symmetrical outer contour at least in sections and in particular in the region of the pump chamber in relation to the cross section, so that free spaces on both sides that lie opposite one another remain between an inside of the flat housing and the outer contour of the pump chamber component.

Such a pump chamber component with an outer contour that is rotationally symmetrical in cross section can therefore also be used in classic dispensers with an approximately rotationally symmetrical outer housing. If it is used in a flat dispenser according to the invention, the free spaces mentioned arise.

The pump chamber component and at least one or one storage wall component preferably have contours that engage in one another, in particular contours that engage in one another in a form-fitting manner in the area of a liquid connection. The two components are therefore connected directly to one another, with a circumferentially liquid-tight connection preferably being involved, so that the liquid path from the reservoir to the pump chamber is thereby created.

If, on the other hand, a one-piece pump chamber and accumulator component is provided, a separate accumulator floor can also be provided, which is tightly connected to the accumulator wall component. The reservoir base, which is elongated due to the shape of the housing, closes off the liquid reservoir on the base side. The storage base can represent a closure that is attached to the storage component after the liquid storage has been filled. However, the storage base is preferably firmly connected to the storage component before filling, in particular by welding or gluing. The storage floor can be used for a ventilation channel instead of the pump chamber component.

In addition to the construction with a one-piece pump chamber and storage component, a construction can also be advantageous in which the storage wall component and the pump chamber component as separate components are formed and connected to each other circumferentially, again preferably by means of an adhesive bond or a welded joint. A separate storage floor component is not necessary with such a design. The base can therefore form the storage wall component in one piece with the surrounding wall.

It is advantageous if the storage wall component has a filling opening on the bottom opposite the pump chamber component. This preferably round filling opening remains open during manufacture of the dispenser and is only closed after the liquid reservoir has been filled, preferably by means of a closure element which snaps onto the edge of the filling opening.

The reservoir wall component, which at least partially surrounds the liquid reservoir, is preferably made from an at least partially transparent plastic material. In particular, the storage wall component can have uniform material properties, so that all walls formed thereby are translucent. Both crystal-clear and milky designs as well as a white or other coloring are possible. The transparency makes it easy to see the fill level in the liquid reservoir. The housing shell described above can enable a housing design that is opaque there above the liquid reservoir.

Polypropylene (PP), cycloolefin copolymer (COC), cycloolefin polymer (COP) or polyethylene terephthalate (PET) are particularly suitable as the material for the storage component or the one-piece pump chamber and storage component. Almost all other components of the drop dispenser and in particular all housing parts are preferably also made of these or other plastics. If the springs are also made of plastic, all parts can also be plastic parts. The plastic parts are preferably made of plastics that can be processed in a common recycling process.

A dispenser according to the invention preferably has, in addition to the valves of the pump device, an outlet valve upstream of the discharge opening. This prevents germs from entering. It is preferably pressed in its closing direction by means of a closing spring and opens when the liquid pressure is sufficiently high. A comparatively large pressure-effective valve surface of in particular at least 50 mm ² is preferably provided in order to be able to use a comparatively strong closing spring and still be able to open the valve for dispensing liquid with low liquid pressure. Preferably, the outlet valve is designed to at to open a liquid pressure of less than 1000 mbar, particularly preferably at one

Pressure less than 800 mbar or a pressure less than 600 mbar.

BRIEF DESCRIPTION OF THE DRAWINGS

Further advantages and aspects of the invention result from the claims and from the following description of preferred exemplary embodiments of the invention, which are explained below with reference to the figures.

1 shows a first exemplary embodiment of a drop dispenser according to the invention in an overall view.

2A and 2B show the drip dispenser of FIG. 1 in two sectional views.

Fig. 3 illustrates the construction of the drip dispenser of FIG. 1 from individual housing parts.

4A and 4B show a one-piece pump chamber and storage wall component in an uncut and a sectional view.

5A and 5B show a second embodiment of a drop dispenser according to the invention in two sectional views.

6 and 7 show a third embodiment of a drip dispenser according to the invention with the protective cap removed and put on.

8 and 9 show a fourth embodiment of a drip dispenser according to the invention.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

1 to 4B show a first embodiment of a drip dispenser according to the invention.

1 shows the drop dispenser 10 in its entirety, with a protective cap 90 being indicated by a dotted representation.

The drip dispenser 10 has a housing 12 . This has a length 5 in the direction of a main axis 2, which is about 8 cm. A width 4 of the housing 12 is about 4 cm. The thick 3 of the case is 1.8 cm. In Fig. 1, the housing 12 surrounds a liquid reservoir 14 and a pumping device 40, which cannot be removed.

A pivotable actuating handle 24 is provided on a front side 12A of the housing 12 for actuating the pump device 40 . Liquid can be conveyed from the liquid reservoir 14 to a discharge opening 16 by pressing in this actuating handle 24 in an overhead position. This is surrounded by a drop formation geometry in the form of a drop formation ring, so that liquid discharged here can collect until the quantity of liquid is sufficient for a drop of the drop dispenser 10 to detach from the drop formation geometry 18 .

The housing 12 has an elliptical cross-section over most of its length 5 . Both the front side 12A and the opposite back side are thus designed to curve gently to the side. The housing 12 therefore lies well in the hand of the user, in particular on the ring finger, middle finger and index finger, while the operating handle can be operated easily, safely and in a controlled manner with the thumb.

2A and 2B show the drip dispenser 10 in a sectional view. From this it can be seen that the liquid reservoir 14 occupies a large part of the interior of the housing 12 . As can be seen from FIG. 4B , it extends so far in the direction of the main axis 2 towards the discharge opening 16 that it is designed to partially overlap with the pump device 40 . Two sections 14A, 14B of the liquid reservoir extend up to the height of the pump chamber 42 of the pump device 40.

2A and 2B it can also be clearly seen that the pumping device 40 has a piston unit 48 which can be displaced orthogonally to the front side 12A and is designed as a diaphragm piston unit. This means that the piston unit 48 is partially made of an elastically deformable material and is attached to the housing 12 in the edge region, in this case to a pump chamber component 20A, which will be explained in more detail below. The piston unit 48 defines said pumping chamber 42 together with the pumping chamber component 20A. Pump valves are provided in the area of an inlet 44 and an outlet 46 on the inlet side and outlet side of the pump chamber 42 .

If the actuating handle 24 is pressed in against the force of a restoring spring 53, the piston unit 48 is thereby pressed downwards in relation to FIG. 2B and liquid is thereby pressed in the direction of the discharge opening 16. The discharge opening 16 is preceded by an outlet valve 70. This is a valve whose primary function is to prevent the ingress of germs. The outlet valve 70 has an outlet valve nozzle 72 belonging to the housing 12, within which an elastically deformable valve body 74 is arranged, which is pressed in the direction of a closed position by a comparatively strong valve spring 76. The valve body 74 has a pressurizing collar which has an area of more than 100 mm ² and is therefore able to open the valve against the force of the valve spring 76 when fluid pressure is applied. The pressure for opening the outlet valve 70 is preferably below 1000 mbar, particularly preferably below 600 mbar.

The basic structure of the housing 12 of this first exemplary embodiment can also be seen with reference to FIGS. 2A and 2B. In the exemplary embodiment of FIGS. 1 to 4A, the housing 12 has a common pump chamber and storage wall component 20 . This component includes the pump chamber component 20A, which at least partially defines the pump chamber and is also the component against which the return spring 53 of the actuating handle 24 and the valve spring 76 of the outlet valve 70 are supported. The reservoir wall component 20B, which is formed in one piece with the pump chamber component 20A, forms an in particular cylindrical wall ring, which delimits the liquid reservoir 14 for the most part. A storage floor component 26 is provided on the bottom side, which is pushed into the storage wall component 20B and is preferably welded or glued there. In the present exemplary embodiment, a ventilation channel 50 is provided in the storage floor component 26 in order to introduce compensating air into the liquid storage 14 after liquid has been discharged therefrom. Since the liquid discharged with a drop dispenser 10 of the type described is preferably free of preservatives, the ventilation channel 50 is designed with a sterile filter 54 .

The main components of the housing 12 are described again with reference to FIG. The housing 12 has the already described pump chamber and storage wall component 20 with its sections 20A, 20B. The outlet valve spout 72 of the housing 12 is stationary with respect to this component and firmly connected to the pump chamber component 20A. A depression is provided on the outside of the pump chamber component 20A, in which the piston unit 48 and an inner part 24B of the actuating handle 24 are arranged.

In addition, the housing 12 has the housing shell 22 on which an outer part 24A of the actuating handle 24 is provided in one piece via a film hinge 23A. facing each other- At the ends, the housing shell 22 has an opening for the discharge opening or the outlet valve spout 72 or an opening through which the pump chamber and storage wall component 20 can be pushed into the housing shell 22. The components 20, 22 preferably latch in the assembled state.

In the joined state, the outside of the pump chamber component 20A and the inside of the housing shell 22 define a protected intermediate space 52 in which the return spring 53 is arranged and the piston unit 48 is fastened circumferentially.

4A and 4B show the pump chamber and storage wall component 20 in a separate representation. The component is shown uncut in FIG. 4A. The shaft, which is open towards the front and forms the pump chamber 42 after the addition of the piston unit 48, can be seen, as well as a retaining pin for the return spring 53 and part of the hinge 23B. The sections 14A, 14B, which extend into the region of the pump chamber 42 in relation to the main axis 2, can be seen from the sectional view in FIG. 4B.

Figures 5A and 5B show an alternative construction. Here, the accumulator wall component 20B is not produced in one piece with the pump chamber component 20A, but is only subsequently connected to one another in a joining region 21, in particular by means of welding or gluing. With such a design, a separate storage base component 26 can then be dispensed with.

6 and 7 show a third embodiment of a drop dispenser 10. This is constructed essentially like the drop dispenser 10 of FIGS. 5A and 5B. There is a difference in the general shape, in particular also of the actuating handle 24. In addition, a filling opening 80 is provided on the bottom of the storage wall component 22B, which can be closed by snapping in a closure element 82 after filling. The closure element 82 can comprise a ventilation channel 50 and a sterile filter 54 inserted therein.

8 and 9 show a fourth exemplary embodiment of a drip dispenser 10 according to the invention in sectional illustrations. The special feature of this design is that separate components 20A, 20B, 20C form the pump chamber component 20A and the storage wall components 20B and 20C. The storage wall component or components 20B and 20C are provided with a flat and preferably elliptical cross-section corresponding to the flat shape of the dispenser and corresponding approximately to the configuration of FIGS. 5A and 5B. The pump chamber component 20A, which The pump chamber 42 is limited, but has an essentially round outer contour, as can be seen from FIG.

This makes it possible to use the pump chamber component 20A in different dispensers and in particular also in dispensers that have an outer housing with a round cross section. This lowers manufacturing costs since different pump chamber components 20A do not have to be provided for different dispensers.

The design means that free spaces 25 are formed between the outer contour of the pump chamber component 20A and the housing shell 22, offset laterally with respect to the pump chamber component 20A. While these represent wasted space, not using that space for liquid storage also results in a comfortably low center of gravity when handling.

The storage chamber component 20B and the pumping chamber component 20A are directly connected to each other. They are preferably connected in the area of a fluid connection 27, which lies below the sectional plane of FIG. 8, particularly preferably by interlocking contours 27A, 27B. These contours can preferably bring about a form-fitting coupling and thus counteract a separation of the components 20A, 20B.

Claims

Claims Drop dispenser (10) for dispensing a liquid drop by drop, in particular for dispensing a pharmaceutical liquid drop by drop, with the following features: a. the drop dispenser (10) has a liquid reservoir (14) for storing the liquid before it is discharged, and b. the droplet dispenser (10) has a discharge opening (16) which is associated with a droplet formation geometry (18), and c. The drop dispenser (10) has a pumping device (40) by means of which liquid can be conveyed from the liquid reservoir (14) to the discharge opening (16), so that the liquid collects at the drop formation geometry (18) and, when a sufficient amount of liquid has been collected, from the Drop formation geometry (18) solves, characterized by the following additional features: d. The drop dispenser (10) has a flat housing (12) within which the liquid storage and the pumping device are arranged, the outer shape of the flat housing (12) having a maximum width orthogonal to a main axis (2) of the housing which is at least 25% greater than the maximum thickness of the exterior shape of the housing (12) orthogonal to the major axis and orthogonal to the width, and e. An actuating handle (24) that can be pushed in is provided on a side surface of the housing (12) to actuate the pump device (40). The drip dispenser (10) of claim 1 further comprising: a. the liquid reservoir (14) extends in the direction of the main axis (2) in an overlapping manner into the area of the pumping device (40), in particular into the area of a pumping chamber (42) of the pumping device (40), preferably with the following additional feature: b. the liquid reservoir (14) has a partial section (14A, 14B) of an internal volume of the liquid reservoir (14) on the left and right side of the pump chamber (42) relative to the width of the housing. A drip dispenser (10) according to claim 1 or 2, further comprising the following feature: a. an internal volume of the liquid reservoir (14) is at least 50% of the volume enclosed by an outer contour of the droplet dispenser (10), preferably at least 60%. Drop dispenser (10) according to one of the preceding claims with the following further features: a. the pump device (40) has a pump chamber (42) which is delimited at least in sections by a pump chamber component (20A), and b. the liquid reservoir (14) is delimited by a wall which is formed at least for the most part by a reservoir wall component (20B), and c. a common component (20) is provided, which forms the pump chamber component (20A) and the storage wall component (20B) in one piece. Drop dispenser (10) according to claim 4 with the following additional features: a. the drop dispenser (10) has a housing shell (22) which is pushed onto the pump chamber component (20A), and b. the housing shell (22) has an opening (22A) for the discharge opening (16), preferably with the following additional features: c. the actuating handle (24) is an integral part of the housing shell (22), and/or d. the actuating handle (24) is on the housing shell (22) or on an outside of the

Pump chamber component (20A) mounted, in particular pivotably mounted, and / or 16e. an outside of the pumping chamber component (20A) and an inside of the housing shell

(22) define an intermediate space (52) in which a restoring spring (60) for restoring the actuating handle is preferably arranged, f. the drop dispenser has a ventilation channel which is formed at least in sections by the pump chamber component (20A) and the housing shell (22). is, wherein preferably the ventilation channel is limited at least in a partial section circumferentially by the pump chamber component and the housing shell. Drop dispenser (10) according to one of the preceding claims with the following further features: a. the pump device (40) has a pump chamber (42) which is delimited at least in sections by a pump chamber component (20A), and b. the liquid reservoir (14) is delimited by a wall which is formed at least for the most part by a reservoir wall component (20B), and c. the pump chamber component (20A) and the storage wall component (20B) are formed by at least two separate components. Drop dispenser (10) according to claim 6 with the following additional features: a. The pump chamber component (20A) is formed by a component with at least partially rotationally symmetrical outer contour, so that opposite free spaces (25) remain on both sides between an inside of the flat housing and the outer contour of the pump chamber component. Drop dispenser (10) according to claim 6 or 7 with the following additional features: a. the pump chamber component (20A) and at least one storage wall component (20B) have interlocking contours (27A, 27B), in particular positively interlocking contours (27A, 27B) in the area of a liquid connection (27). 17 drop dispenser (10) according to any one of the preceding claims with the following additional features: a. the droplet dispenser (10) has a storage wall component (20B) which peripherally surrounds the liquid storage (14), and b. the drop dispenser (10) has a storage base (26) which is tightly connected to the storage wall component (20B), preferably with at least one of the following additional features: c. the storage base (26) is connected to the storage wall component (20B) by means of an adhesive bond or a welded connection, and/or d. the storage floor (26) is penetrated by a ventilation channel (50). Drop dispenser (10) according to one of the preceding claims with the following further feature: a. the drop dispenser (10) has a storage wall component (20B) and a pump chamber component (20A), which are designed as separate components and are connected to one another circumferentially, preferably with at least one of the following additional features: b. the pump chamber component (20A) is connected to the storage wall component (20B) by means of an adhesive bond or a welded joint, and/or c. the storage wall component (20B) has a filling opening on the bottom opposite the pump chamber component (20A), which can preferably be closed by means of a closure element. Drop dispenser according to one of the preceding claims with the following further features: a. the drop dispenser (10) has a storage wall component (22B) which at least partially surrounds the liquid storage (14), and 18 b. the storage wall component (22B) is made of an at least partially transparent material, preferably with the following additional feature: c. the storage wall component has polypropylene (PP), cycloolefin copolymer (COC), cycloolefin polymer (COP) or polyethylene terephthalate (PET) as the dominant material. Drop dispenser according to one of the preceding claims, having the following further feature: a. the housing (12) of the drip dispenser (10) has a maximum width (4) of at least 2.5 cm and a maximum thickness (3) of at most 2 cm, preferably with at least one of the following additional features: b. the housing (12) has a maximum width (4) of at least 3.6 cm, and/or c. the housing (12) has a maximum thickness (3) of at most 1.8 cm, and/or d. the housing (12) has a length (5) between 4 cm and 10 cm, preferably a length (5) between 5 cm and 8 cm, and/or e. the maximum width (4) of the housing (12) is at least 50% greater than the maximum thickness of the housing (12), in particular at least 100% greater. A drip dispenser (10) according to any one of the preceding claims with the following additional feature: a. the pump device (40) has a piston unit (48) that can be moved orthogonally to the main axis (2), preferably with at least one of the following additional features: b. the piston unit (48) is made as a membrane part at least partially from an elastically deformable material and is attached to a pump chamber component (20A) with a peripheral edge, and/or 19c. the piston unit (48) has an elastically deformable compensating section, by means of which the connection to the actuating handle (24) is formed, and/or d. the pumping device (40) has an inlet (44) from the liquid reservoir (14), which has a clear cross section of at least 2 mm ² at its narrowest point, optionally onto a plurality of partial inlets acting parallel to one another. Drop dispenser according to one of the preceding claims with one of the following additional features: a. the actuating handle (24) comprises an outer part (24A) and an inner part (24B), and/or b. the actuating handle (24) is pivotably articulated on the housing (12), and/or c. the actuating handle (24) or its outer part (24A) is connected in one piece to a housing shell (22) of the housing (12) via a hinge, and/or d. the actuating handle (24) or its inner part (24B) is pivoted on the housing (12) by means of a multi-part hinge, and/or e. the actuating handle (24) or at least one outer part of the actuating handle has a different color than the surrounding walls of the housing, and/or f. the actuating handle (24) has a width of at least 20 mm, in particular at least 25 mm, and/or the actuating handle (24) has a width which is at least 50% of the width of the housing at its widest point. A drip dispenser (10) according to any one of the preceding claims with the following additional feature: a. the cross section of the housing (12) is provided with a substantially elliptical cross section, at least in a partial area, preferably with the following additional feature: 20 b. the cross-section of the housing (12) is provided with a substantially constant elliptical cross-section over at least a portion of at least 40% of the length (5) of the housing, the cross-section of the housing changing starting therefrom

Section tapered towards the discharge opening (16). Drop dispenser according to one of the preceding claims with at least one of the following additional features: a. the housing (12) is made of a plastic that is difficult to deform, and/or b. the liquid reservoir (14) is connected to the surrounding atmosphere via a ventilation channel (50), the ventilation channel (50) preferably being provided with a sterile filter (54) and/or a ventilation valve, and/or c. the actuating handle (24) is provided on a front side (12A) spanning the width (4), preferably in a centric arrangement, i. the drop dispenser (10) has a removable protective cap (90), the protective cap (90) preferably covering the actuating handle (24) when it is in place, and/or e. The drop dispenser (10) has an outlet valve (70), the outlet valve preferably being designed to open at a liquid pressure of less than 1000 mbar, particularly preferably at a pressure of less than 800 mbar, particularly preferably at a pressure of less than 600 mbar, and/or f. the liquid reservoir has a filling opening (80), the filling opening (80) preferably having a round shape and preferably being closable by means of a closure element (82), in particular by snapping the closure element (82) at an edge of the filling opening (80), and/or g. the liquid reservoir (14) is filled with a pharmaceutical liquid, in particular a preservative-free liquid. 21 Drop dispenser (10) for dispensing a liquid drop by drop, in particular for dispensing a pharmaceutical liquid drop by drop, with the following features: a. the drop dispenser (10) has a liquid reservoir (14) for storing the liquid before it is discharged, and b. the droplet dispenser (10) has a discharge opening (16) which is associated with a droplet formation geometry (18), and c. The drop dispenser (10) has a pump device (40) by means of which liquid can be conveyed from the liquid reservoir (14) to the discharge opening (16), so that the liquid collects at the drop formation geometry (18) and, if the collected amount of liquid is sufficient, away from the drop formation geometry (18) solves, characterized by the following further feature: d. an internal volume of the liquid reservoir (14) is at least 50% of the volume enclosed by an outer contour of the droplet dispenser (10), preferably at least 60%. Drop dispenser (10) for dispensing a liquid drop by drop, in particular for dispensing a pharmaceutical liquid drop by drop, with the following features: a. the drop dispenser (10) has a liquid reservoir (14) for storing the liquid before it is discharged, and b. the droplet dispenser (10) has a discharge opening (16) which is associated with a droplet formation geometry (18), and c. The drop dispenser (10) has a pump device (40) by means of which liquid can be conveyed from the liquid reservoir (14) to the discharge opening (16), so that the liquid collects at the drop formation geometry (18) and, if the collected amount of liquid is sufficient, away from the drop formation geometry (18) solves, characterized by the following additional features: d. the pump device (40) has a pump chamber (42) which is delimited at least in sections by a pump chamber component (20A), and 22e. the liquid reservoir (14) is delimited by a wall which is formed at least for the most part by a reservoir wall component (20B), and f. a common component (20) is provided which comprises the pump chamber component (20A) and the reservoir wall component (20B) forms in one piece.