DE4110302A1 - DISCHARGE DEVICE FOR MEDIA - Google Patents

Description

The invention relates to a discharge device for media, with which in particular one or more media by ma natural strength should be applied individually or mixed len, with the respective medium any physical state or have any consistency, e.g. B. liquid, gaseous, can be powdery, pasty or similar.

This discharge device is useful in one hand size to be worn or one-handed operation at least partly from a plastically shaped material who prefers non-metallic instead of metallic, e.g. B. can be an injection molded plastic. With such  Discharge devices can be used to discharge a Deformation or sliding of the component to be moved is provided through whose movement the medium through a media guidance to an outlet opening is promoted. This me In the case of a squeeze container, service can be carried out by the Vascular storage and the channel forming the outlet opening or be formed by numerous similar media rooms, of which the respective one only with the discharge the medium flowing through or is filled beforehand is filled, so that the already existing medium through further, advancing medium is displaced. Thereby he are operating conditions of the discharge device or for the respective media room, that of work or functional movements of the discharge device or parts thereof are dying.

Such discharge devices can be complete from each other separate media chambers, e.g. B. for storage, the För change and / or the discharge of separate media streams or separate media or media different from media exhibit current status.

The invention is further based on the object of a To create discharge device of the type mentioned, at wel disadvantages of known training are avoided and which in particular in at least one function or radio tion movement has a power support, which the respective requirements well adjusted, adjusted and / or can be achieved with a simple design.

To solve this task is an energy or work chamber provided in one or all operating states compared to one or all of the media tours sealed and as energy storage for at least one of the  mechanical functions is arranged, although they too can be suitable as an energy store that little at least part of the fluid contained in it or is fed to several media guides. The energy source cher in the form of a tightly closed state Pressure chamber forming chamber can support numerous cher functional movements of the discharge device, for. B. sol cher of valves, return movements of the to be moved Component and others are used. A very simple one Training arises when the Chamber of Labor at least is free of such valves which, unlike one pure filling valve or a safety valve in any open or close an operating state.

According to the invention, at least one spring can therefore be switched off Carrier be designed as a gas spring, the expedient igly instead of slidingly movable components has chamber space to be narrowed by deformation. Instead of to assist the manual force in moving to Discharge actuation, the gas spring expediently becomes the sub support a return movement used, in each If the supported function is a valve movement, a Conveying movement for the medium or other can be. Also can the labor movement of the Chamber of Labor for a Damping a movement or the like.

A particularly simple training results if the Working chamber by an essentially one-piece, for. B. formed by vacuum forming hollow body is, the two support parts for connection with each other of the components to be moved, the two Support parts are expediently formed in one piece with one another are. These support parts can be in contrast to the ends a coil spring through profile and / or cross  Cutting reinforcement should be stiffened so that it can be used without Support on the discharge device against the be on it forces due to drive would be dimensionally stable. E.g. can at least one support part directly through the outside a tightly closed or disc-shaped chamber Be formed end wall, the support surface is appropriate lies in the transition area to the chamber jacket, so that this in an area corresponding to its continuous width is axially securely supported.

Instead of partially or entirely outside, it is advantageous to Working chamber or its chamber wall partially or fully to be permanently arranged within at least one of the rooms, the ge through the discharge device and the media guide forms are, so that the working chamber at least in operation is immediately washed by the medium.

Instead of or in addition to the training described NEN according to the invention movable valve body at least two valves, in particular an outlet valve les and an axially spaced opposite Inlet valves partially or entirely in one piece with each other and possibly be formed with a valve spring, the purpose is moderately formed by a chamber wall.

Likewise, at least one spring, in particular, can be used one at a distance from the valve body to be moved by it partially or completely as by lying valve spring be approximately flat disc spring, the expedient ßig is formed by an end wall of the chamber, which at the same time forms the support part, so that they are in the we notwithstanding the deformation of the chamber shell deform and still be under the chamber pressure.  

In a further embodiment of an invention independent of the training described can be in at least one Be rich the media guide a packing can be provided, the in contrast to a dimensionally stable and by a relative movement acting displacement body essentially in each operating state in approximately the same range of Media leadership intervenes, however, in terms of his specific volume is deformable that it is per unit of the extension which he roughly parallel to the belonging gen section of media management has, in its specific Filling volume is changed. Instead of a radial deformation mung the filler can on the outer circumference or have several wells, which by elastic Ver narrowing depending on the operating state are so that the medium in them is displaced and e.g. B. is promoted in the discharge direction. As a result, dead spaces caused by the narrowing of the pressure or pump room not be captured, also narrowed and so the Media discharge and / or the media intake from a me support the memory. This packing is preferred through a bellows, in particular the chamber wall Chamber of Labor, formed.

The discharge device according to the invention can be made from very few gene parts, e.g. B. only five items or one finally a cover cap for the discharge opening six individual parts are made of plastic, two to all individual parts expediently made of the same material fen exist together or as a mixture for material for the preparation of other products that can.

These and other features go beyond the claims also from the description and the drawings, wherein  the individual features each individually or too much reren in the form of sub-combinations in one execution form of the invention and realized in other fields be and advantageous as well as protectable execution represent representations for which protection is claimed here becomes. An embodiment of the invention is in the Drawings shown and will be explained in more detail below tert. The drawings show:

Fig. 1 a discharge device according to the invention, partly in axial section,

Fig. 2 shows a functional assembly of the Austragvorrich device according to FIG. 1 in an enlarged representation and

Fig. 3 shows a detail of Fig. 1 in a substantially enlarged view.

The discharge device 1 has a on a media memory, z. B. a bottle jar, an aerosol can or the like. Fixing base 2 with egg ner through the neck of the vessel then protrude into the media storage, the pump 3 and a freely projecting actuating unit 4 , with which in the case of a pump the pump movement and in the case of a pressure accumulator only the opening movement of an exhaust valve is to be carried out manually. The unit 4 protruding into the neck of the vessel has an exposed head which can be designed as a discharge and / or actuating head 5 and here has a discharge opening 8 for the medium and / or a handle 6 . A spigot 7 protrudes outward beyond the plate-shaped handle 6 lying transversely to the actuation direction and is penetrated by the discharge opening 8 in the end region. A cap 9 , which partially overlaps the base body 2 and whose cap end wall is formed by the handle 6 , projects over the opposite side.

Essentially all of the components mentioned lie approximately in a common axis 10 , to which the direction of actuation is approximately parallel. The base body 2 has a multiple sleeve-shaped housing 11 and at its further end a cover 12 which engages with a hollow sleeve in the inner circumference of the housing 11 and with an outer shell which overlaps the outside so that a rigid connection is given. At the narrower end of the actuating head 5 further away, the one-piece housing 11 has a riser pipe 13 , optionally formed in one piece with it, via which the pump 11 or the discharge opening 8 is supplied with medium from the bottom region of the media store.

The base body 2 is to be fastened to the media store with a crimp ring, a fastex connection, a screw connection or the like. Here it has a fastening cap 14 for gripping the neck of the vessel, which is in one piece with the lid 12 and a ring on the inside of its cap end wall protruding sealing flange 15 is formed to seal the memory from the outside.

The housing 11 forms with a connecting to the cover 12 longitudinal portion a pump cylinder 16 in which an annular pump piston 17 with the handle 6 is so movable that a limited by these components Pumpenkam mer narrowed to discharge the medium and for suction from the Memory is expanded. The discharge from the Pumpenkam mer 18 takes place via a leading to the discharge opening 8 , essentially in the axis 10 or in an actuating plunger 20 lying outlet channel 19 and is via an inner half of the housing 11 or the cover 12 lying outlet valve 21st controlled. The actuating plunger 20 connects the actuating head 5 to the pump piston 17 and passes through the central opening of the cover 12 , the actuating plunger 20 being essentially fixed in position on the actuating head 5 .

The valve 21 has two in cross-section essentially annular and approximately radially free of play displaceable one inside the other valve bodies 22 , 23 , both of which are part of the actuating plunger 20 or are displaceable with the latter. The inner valve body 23 is rigidly connected to the actuating head 5 in that it is formed by a component or a construction body 26 of a carrier component 24 , the other structural body 25 in the region of the free end with the nozzle 7 is firmly connected. On this carrier component 24 , the outer valve body 22 is movably mounted approximately parallel to its axis 10 or to the actuation direction, wherein it consists of a flexible, stretchable and / or compression-elastic material by means of a valve component 27 from a function of its functional movements .

Referring to FIGS. 1 and 2, the components or Ab are here sections 25, 26 integrally to the carrier member 24 together quantitative bordered, so that a continuous dres ge compound 30 results between them. The valve body 22 formed thereby in one piece with the above-mentioned components is formed by a ring region which is only approximately of the same length compared to its wall thickness, which is expediently inside the outer jacket of the pump piston 17 , between its two pioneering ring sealing lips or approximately in the plane of the end face of the sealing ring pointing away from the media inlet. The approximately rectangular and equilateral triangular valve body 22 in cross section closes in the area of an imaginary profile corner zone directly in one piece to an at least partially ring-shaped valve spring 32 , which is expediently rich in connection or approximately the same inside width as the valve body 22 over its entire length , so that there is a consistently constant, gradation-free inner circumference. The constant over its length outer circumference 33 of the valve spring 32 connects to the base edge of the profi les of the valve body 22 , which goes through the triangular profile continuously and approximately rectilinearly to the inner circumference of the piston skirt.

Subsequent to the end of the valve spring 32 remote from the valve body 22 , the inner circumference of the component 24 or 25 forms a plug-in receptacle 35 for the structure 26 , which as a plug-in pin also extends over the length of the valve spring 32 and approximately the length of the valve body 22 . The plug pin 26 is provided on the outer circumference with longitudinal grooves, which are covered to the outside by the valve body 22 and the valve spring 32 and thereby closed over the circumference, to the Ven valve 21 and the pump chamber 18 adjacent Kanalab sections of the outlet channel 19 form. The receptacle 35 can be at most as long as or shorter than its width. At its other end, the plug pin 26 connects in one piece to the inner valve body 23 , which is cap-shaped or hollow in cross-section and whose cap end wall is formed by the end of the plug pin 26 .

Due to the design described, the outer circumference 38 of the valve body 22 is flared to the media inlet. This conical section forms a valve body of a vent valve for the storage vessel, the other valve body is formed by the inner end of the hollow sleeve of the cover 12 and which opens at the start of the discharge actuation, so that air from the storage vessel through an opening in the housing 11 and between the inside of the cover 12 and the valve spring 32 can get outside. On the return stroke, the outer circumference 38 starts at the inner edge of the cover 12 , so that thereby acting on the valve body 22 and the valve spring 32 an axial stretching force and a radially inward force in the sense of the closing of the valve 21 . The maxima le stroke of the actuating plunger 20 is less than the length of the valve spring 32 lying completely as an elastic shaft portion in the initial position within the cover 12 , so that it is still guided at the end of the stroke with part of its length within the cover 12 . As a result, only a longitudinal section of the constant sleeve profile adjoining the valve body 22 forms the part of the valve spring 32 which is elastically deformable by expansion, while a subsequent section is deformable at most by slight axial compression within the cover 12 .

The valve body 23 forms with its inside and outside ke stump-limited cap jacket of approximately constant wall thickness on the outer periphery of a shoulder-shaped or conically expanded valve seat 41 , which limits a completely lockable, annular valve opening with the ring-shaped valve closing surface 42 of the valve body 22 and a stop position intended for the closed position of the valve 21 . The closing surface 42 is delimited by the flanks of the triangular profile of the valve body 22 which are approximately at right angles to one another and expediently approximately sharp-edged, the flank lying approximately at right angles to the axis 10 passing into the inner circumference of the conical section which benmantel the valve body 22 directly with the piston connects and has the outer circumference 38 . The narrower end of the valve seat 41 directly adjoins the equally and constantly wide outer circumference of the piercing mandrel 26 .

The valve spring 32 is in its starting position over its entire length and in the pump stroke position about half as surrounded by a support 43 of the base body 2 , which is formed by the inner circumference of the cover 12 , on which the actuating plunger 20 is slidably guided and the can be provided with longitudinal grooves for ventilation. The associated outer circumference 33 extends from the valve body 22 over such a large length with a constant width that it is guided over the entire length of the support 43 even in the stroke end position, which extends from the inner end of the hollow sleeve to the outer end face of the cover 12 . From the support 43 lies with a smaller gap distance compared to the material thickness of the valve spring 32, a further support 44 opposite, which is formed by the outer circumference of the adjoining the receptacle 35 section of the plug mandrel 26 , so that this section essentially in all operating states compared to the The inner circumference of the valve spring 32 and / or the valve body 22 is non-contact.

The valve body 22 can only be lifted axially after a certain displacement of the unit 4 for valve opening from the valve seat 41 , namely when the valve spring 32 has come free of sufficient length from the support 43 , the adjustment being appropriately provided so that this only towards or at the end of the pump stroke it follows. During this opening movement, the valve spring 32 can then deflect outward only in a radial direction, namely because of the support 44 running with it, with its jacket being elastically bulged until the pump stroke is ended by a stop.

The valve 21 is suitable for a path-dependent as well as for a pressure-dependent control, it being able to work both as a slide valve and in the manner of a hose valve. With path-dependent opening, the valve body is expediently moved by 22 via a stop 57 , against which the associated component strikes during the actuating movement of the actuating head 5 and which can be formed by an inner shoulder at the end of the cylinder 16 , against which the pump piston 17 runs. In the closed or starting position, the valve spring 32 can be completely free of tension.

The structure 25 of the component 24 is formed in one piece with a shaft portion 47 adjoining the valve spring 32 , which lies over most of its length essentially without contact and deformation within an outer jacket of the nozzle 7 and with its outer end a nozzle core 48 or forms a swirl device at the inner end of the nozzle opening forming the discharge opening 8 . This nozzle core 48 protrudes axially with reduced width over an end portion of the shaft portion 47 , which is inserted into an inside of the outer shell of the socket 7 and which is firmly connected to this one-piece socket 49 .

The receptacle 49 forms at its outer end or in the transition region to the outer jacket a one-piece nozzle cap 58 formed with the nozzle 7 and on the inside of the associated cap end wall penetrated by the outlet opening 8 is the nozzle core 48 , which is expediently profiled on the associated end face 59 for swirl generation is provided in such a way that the inside of the cap end wall can be flat and free of profiling or heel-free. The outlet channel 19 is between the plug mandrel 26 and the nozzle core 48 only surrounded by the component 25 over the entire circumference and then has a flat oval cross section at the loading of the nozzle core 48 . Be in the area facing away from the discharge opening 8 back of the nozzle core 58 , the inner or outlet channel 19 ra dial out of the shaft portion 47 against the inner circumference of the nozzle cap and is deflected axially along the outer sides of the nozzle core 48 and then radially inward again along the profiles 59 led to the outlet opening 8 . Due to the design described, the socket 49 can be made very short or the shaft portion 47 at approximately over its entire length or between the facing end faces of the socket 49 and the cover 12 or the base body 2 and the housing 11 without contact lie within the nozzle 7 , the handle 6 and the cap 9 . The lying inside the socket 49 plug end 76 of the actuating plunger 20 is expediently reduced compared to the adjoining or the remaining longitudinal region of the shaft portion 47 in the outer width.

The actuating plunger 20 , including the valve 21 and other components, can form a preassembled module 50 which can be inserted into the cover 12 from the inside and then connected to the actuating head 5 . This assembly contains or consists of two pre-assembled subassemblies 51 , 52 , one of which is in one piece and holds the carrier structure 25 and the valve component 27 ent. The other assembly 52 can also be formed continuously eintei lig and contains, in addition to the core body 26 and the valve body 23 , a return spring 53 for the unit 4 and / or a valve body 54 of an inlet valve 55 of the media inlet, the valve seat 56 by an inner Ring shoulder of the housing 11 is formed. The return spring 53 , which is expediently designed as a bellows and / or Gasfe, lies approximately in the axis 10 within the housing 11 so that they connect to the pump piston 17 , the pump chamber 18 and / or one to the cylinder 16 engages narrower housing section, with their Widerla ger compared to the base body 2 through the valve seat 56 may be ge.

According to the invention is an elastically deformable, here formed by the valve spring 32 stem portion immediately on the base body 2 , namely on the housing 11 or on the cover 12 , with its outer circumference on the support 43 leads GE. The outer end of the support 43 associated end of this shaft portion 32 is in each operating position between the ends of the support 43 , the length of which is greater, in particular approximately twice as large as the outer width of the shaft portion 32 . The support 44 lies at least over the largest part of the length of the shaft section 33 essentially in any operating position at least at a gap distance from the shaft section 32 , which could, however, be deformed radially inwards by this gap distance under compression load at the beginning of the pump stroke, but then immediately would be determined by the support 44 . This is achieved in particular by the fact that the shaft section lying within the support or sliding guide 43 has successive sections in the longitudinal direction of different sections of different internal widths, of which a narrower and shorter section 35 produces the positionally stable connection with the elastically compressible plug pin 26 .

The slide guide 43 extends with its inner end in the starting position from in the region of the outlet valve 21 and the surrounding vent valve 74 , wherein it acts on the conical outer circumference 38 under the force of the return spring 53 , so that the valve body in Are loaded in the sense of their closing movement and are exactly centered and the shaft section 32 is subjected to a stretching force. The connection of the outer circumference 38 with the pump piston 17 can be done so that the connecting portion between the piston lip or pistons and the plunger is slightly deformed radially inward by the aforementioned force, so that the piston lips with respect to their contact pressure on the cylinder barrel in the initial position are relieved accordingly, without the dense system being lifted.

As a result, as well as by the supports 43 , 44 , it is possible to manufacture the structural body 51 or all components lying within the housing space without the risk of permanent deformation from softer or soft-elastic material. At the shaft section 32 or the receptacle 35 adjoins outwardly in the direction of the discharge opening 8 a longitudinal section 75 of the shaft section 47 which is reinforced in cross section, the outer width of which is continuously the same as that of the shaft section 32 , but the inner width of which is narrowed relative to the receptacle 35 and associated section of the outlet channel 19 forms. This longitudinal section 75 , which extends in the starting position about half the length between the slide guide 43 and the socket 49 , goes into a narrower only in the outer width narrower Längenab section, which ends with the hollow plug 76 for receiving in the Receptacle 49 forms. The at the other end of the plunger 20 or the component 24 , namely the associated end of the pump piston 17 forms an end stop for the pump movement, which runs on the stop 57 .

The return spring 53 limits within a Kammerman means 61 and two end walls 62 , 63 a tightly closed ne working chamber 60 which is filled with air in the starting position under excess pressure and forms a compression chamber. A cap-shaped end wall 62 forms the valve body 23 , and the end wall 63 lying at the media inlet is approximately flat. The chamber jacket 61 is formed as a substantially uniform bellows over its length, the alternating opposite conical frustum migratory longitudinal sections can be moved approximately up to the full contact of their inner and / or outer surfaces against each other. One of these Längenab sections adjoins the end of the cap jacket of the end wall 62 in one piece, and the other longitudinal section connects accordingly to an approximately cylindrical Man telrand the end wall 63 .

The end of the spring 53 lying on the actuating plunger 20 is thereby fixed by means of the plug-in pin 26 or is supported on the return stroke also by means of the valve seat 41 with respect to the unit 4 . The other end is supported on the outer circumference of the outer side of the end wall 63 on shoulder surfaces 64 which protrude beyond the inside of the housing 11 in a ring around the axis 10 and are expediently formed by projecting end sections of longitudinal ribs 65 on the casing of the housing 11 guide or center the chamber jacket 61 on the outer circumference. The shoulder surface 64 extends only approximately over the radial extent between the narrowest inner circumference and the widest outer circumference of the chamber shell 61 , so that a central field of the end wall 63 with a larger radial extension remains unsupported free.

The working chamber 60 or the chamber jacket 61 is in the starting position with the largest part of the longitudinal extent within a constricted compared to the pump chamber 18 Ge housing space 66 , which connects to the stop 57 and passes essentially to the valve 55 and over its length with the longitudinal ribs 65 is provided. The remaining part of this length lies within the pump chamber 18 or the pump piston 17 , the inner circumference in Pumphubendstel development practically forms a continuation of the inner circumference of the Ge housing space 66 . As a result, the spring 53 forms a hollow filling body 70 which is tightly closed within its outer boundaries with respect to the spaces mentioned, and which cher the housing space 66 substantially over its entire length on a shell-shaped gap space 67 between the outer periphery of the chamber shell 61 and the inner periphery of the shell of the housing 11 limited.

A corresponding, but slightly wider gap is also gebil det in the pump chamber 18 and in the pump piston 17 . By profiling the chamber shell 61 , however, this forms on the outer circumference a plurality of ring-shaped, axially one behind the other recesses 68 , the bottom of which is limited in axial section by two flanks lying at an angle to one another and in cross section radially outward or to the limited between the longitudinal ribs 65 Longitudinal channels 69 are expanded, which remain free for the flow in each operating state of the packing 70 . If the spring 53 is compressed during the pump stroke, the depressions 68 are narrowed and the medium located in them is displaced to the valve 21 through the gap spaces or the longitudinal channels 69 . As a result, the housing space 66 can be almost completely emptied during the pump stroke.

The working chamber 60 or the filler 70 or the entire te associated assembly 52 is suitably made of a material which is resiliently elastic with respect to bending, expansion and / or compression, the assembly 51 also being made of a similar or identical elastic material can stand. As a result, not only are both the valve surfaces or valve body of the valve 21 lying against one another from the operating forces, elastically deformable material, but also due to the air filling of the working chamber 60 during assembly of the discharge device 1 or the connection to the assembly 51 Valve body 23 and the system on the valve seat 41 of the valve body 22 and the subsequent shaft section formed by the valve spring 32 and also the piston skirt of the pump piston 17 including the circumferential surface 38 are placed under radially outward tension, through which the tightness between them Areas or areas and the associated counter surfaces of the base body 2 significantly increased and the assembly can be simplified.

The other end of the return spring 53 is formed in one piece with the plate-shaped valve body 54 , which closes via a shaft 71 to the associated end wall of the hollow body, lies at a distance from this end wall and, instead of being self-resilient, can be dimensionally stable at least under the pressure loads that occur. As a result, the return spring 53 also forms at the same time a valve spring formed in one piece with the valve body 54 , against which the valve body 54 performs an axial opening movement, under which it axially lifts off the valve seat 56 at a corresponding pressure, so that the medium from the riser pipe 13 on the valve body 54 can pass over into the other housing space and fill the space limited between the outer circumference of the return spring 53 and the casing of the housing 11 without penetrating into the interior of the outer circumference of the return spring 53 . By selecting the gas or air pressure in the cavity of the return spring 53 , the spring characteristic can be adjusted precisely.

The flat disk-shaped valve body 54 is not loaded by the same, essentially from the foldable chamber jacket 61 de-defined return spring 53 for the unit 4 , but by a separate, disk-shaped or plate-shaped Ventilfe the 72 , which is essentially formed only by the end wall 63 and is therefore formed in one piece with the return spring 50 . In the starting position, the valve spring 72 is curved outwards in the shape of a truncated cone to the center, in which it merges on the outside into the central shaft 71 , over the outer circumference of which both the valve spring 72 and the valve body 54 protrude far. The valve spring 72 can be pressed against its elastic stress, as well as against the gas pressure in the working chamber 60 under driving of the valve body 54 against the shoulder surfaces 64 inwardly, practically rolling on the shoulder surfaces 64 and the valve body 54 with its flat valve sealing surface from the valve seat 56 takes off.

In this respect, the opening force of the valve 55 can also be adjusted with the gas pressure in the working chamber 60 . The valve seat 56 is expediently formed by a relatively sharp edge surface which is bordered in cross section by two flanks lying approximately at right angles to one another, and is ring-shaped. It surrounds in the radial distance a laßkanal, which is formed by the end of the inner circumference of the riser tube 13 . Due to the design described, the valve body 54 is made of the above-mentioned elastic material, while the valve seat 56 consists of a considerably harder material. The inner Längskan th of the projections for the shoulder surfaces 64 simultaneously form longitudinal guides for the outer circumference of the valve body 54 , so that it can lift substantially parallel to the axis 10 from the valve seat 56 and thus without even tilting over its entire circumference.

The riser 13 closes via a frustoconical, on the inside having said projections Ge housing section to the associated with the housing space 66 from section and is over its entire length required for the discharge or to the bottom of the storage vessel in one piece with the housing educated.

The connector 7 can be closed with an attached, one-piece protective cap 73 , which expediently extends to the actuating pressure surface of the handle 6 and is narrower than this.

Claims (14)

1. Discharge device for media with at least one component to be moved for discharge actuation and a media guide leading to an outlet opening ( 8 ) which forms media spaces for receiving the medium in at least one operating state determined by functional movements, characterized in that at least one of the media spaces is separate , At least one chamber wall limited working chamber ( 60 ) is seen before, which is sealed in at least one operating state against the media rooms and is arranged as energy storage for at least one of the functional movements. 2. Discharge device according to claim 1, characterized in that the working chamber ( 60 ) is completely sealed in any operating state and preferably at least partially a gas spring, in particular for a return movement, such as a reset of the discharge control or a Venti les ( 55 ) , forms and / or at least partially has a flexible chamber wall ( 61 ). 3. Discharge device according to claim 1 or 2, characterized in that the working chamber ( 60 ) has at least two mutually movable support parts ( 63 , 26 ), which are in particular on opposite sides of the working chamber ( 60 ), of which at least one least an assembly ( 52 ) or a one-piece structure with at least one chamber wall ( 61 ) bil det, which are substantially axially aligned with one another, of which at least one is essentially dimensionally stable against its supporting forces, of which at least one versus a flexible Wall part of the chamber wall ( 61 ) of the working chamber ( 60 ) has stiffened material cross-section and / or at least one of which connects via a substantially closed end wall ( 62 ) to a chamber jacket ( 61 ) of the chamber wall. 4. Discharge device according to claim 3, characterized in that at least one supporting part forms a plug pin ( 26 ) and / or at least one supporting part forms a supporting plate ( 63 ) and that preferably at least one supporting part is cup-shaped and dimensionally stable and with its cup wall on the chamber jacket ( 61 ) connects. 5. Discharge device according to one of the preceding claims, characterized in that at least one chamber wall ( 61 ) of the working chamber ( 60 ) is at least partially formed by a bellows, in particular essentially over the circumference and / or the length of the working chamber ( 60 ), and before preferably approximately continuously over its length from sections of the same width. 6. Discharge device according to one of the preceding claims, characterized in that at least one working chamber ( 60 ) at least partially within a device housing ( 11 ), a cylinder housing a discharge pump ( 3 ), a pump chamber ( 18 ), a pump piston ( 17th ) and / or between the pump piston ( 17 ) and a media inlet of the device housing ( 11 ), in particular in the axis ( 10 ), at least one of these components is provided, and preferably with the plug pin (essentially integrally formed with the chamber wall ( 61 )) 26 ) engages in a piston sleeve ( 32 ) of the pump piston ( 17 ). 7. Discharge device according to one of the preceding claims, characterized in that at least one spring, in particular the return spring ( 53 ) for the discharge actuation or a valve spring ( 72 ) with at least one valve body ( 23 , 54 ) at least one valve ( 21 , 55 ), preferably with a valve actuator ( 23 ) of an outlet valve ( 21 ) and / or with a valve body ( 54 ) of an inlet valve ( 55 ), which has a valve seat which is fixed to the housing . 8. Discharge device according to one of the preceding claims, characterized in that at least one spring ( 53 , 72 ), in particular directly adjacent to the chamber jacket ( 61 ) in the area of a cap-shaped end wall ( 62 ) on the circumference of a ring or shoulder-shaped valve seat ( 41 ) and / or at a distance adjacent to an end wall ( 63 ) forms a disc-shaped valve body ( 54 ), the valve seat ( 41 ) preferably being provided in a hollow region of the spring and / or the valve body ( 54 ) at a distance from the associated the rest of the support part. 9. Discharge device according to one of the preceding claims, characterized in that at least one spring ( 72 ) is formed by a disc spring, in particular an end wall ( 63 ) of the working chamber ( 60 ), which is preferably adjacent to the immediate bar via a shaft ( 71 ) or carries approximately parallel to it valve body ( 54 ) and / or is supported in an area ( 64 ) remote from its connection ( 71 ) with the valve body ( 54 ). 10. Discharge device according to one of the preceding claims, characterized in that at least two independently working springs ( 53 , 72 ) are formed by an assembly ( 52 ) or a one-piece construction part and preferably their resiliently movable sections are transverse to each other, in particular, their separate, resiliently movable sections essentially close to each other. 11. Discharge device according to one of the preceding claims, characterized in that the working chamber ( 60 ), in particular continuously limited in one piece, is under pressure in at least one position, such as in a starting position and / or a stroke end position, and is preferably sealed in any operating state is. 12. Discharge device according to one of the preceding claims, characterized in that at least one spring ( 53 , 72 ), in particular the working chamber ( 60 ) is a two-part assembly ( 50 ) with an actuating plunger ( 20 ), a pump piston ( 17 ), an outlet valve ( 21 ), an outlet channel ( 19 ), a Ventilkör by ( 54 ) an inlet valve ( 55 ) and / or a nozzle ( 48 ) forms a discharge nozzle. 13. Discharge device according to one of the preceding claims, characterized in that in a media space, in particular at least in a piston running track adjoining housing space ( 66 ) is provided in each operating state over the same length engaging filler ( 70 ) , which limits the media space to an in particular annular gap space ( 67 ), can be deformed per unit length to change its specific filling volume and / or is formed by the at least one chamber wall ( 61 ). 14. Discharge device according to claim 13, characterized in that the filling body ( 70 ) increases depending on the path with the discharge actuation at a specific filling volume, in particular on the outer circumference having flexible narrowing displacement depressions ( 68 ), preferably before on the inner circumference of the housing space ( 66 ) at least one longitudinal channel ( 69 ) leading to the piston raceway is provided.