EP0882515A2 - Dispenser for material - Google Patents

Abstract

The dispenser has a first pump unit (3) with housing (15) with outer end (17), central innermost housing chamber (28) passing through the outer housing end, and a support face (20) for axial support on a medium reservoir (2). A second pump (4) for a second medium such as air comprises a fixed and a movable pump body (49,52) for changing the volume of the pressure chamber (50). The fixed pump body is provided on an assembly body (7) which is separate from the support face and encloses the housing chamber on the outside, but can be set axially fixed with a holder relative to the first pump housing. A fastener (8) axially tensions the support face against the medium reservoir. An operating head (9) on an operating plunger (33) which directly defines the through-flow section (32) in the outer housing end can be moved relative to the support face (20) from a rest position into a stroke end position through a pump stroke.

Description

The invention relates to a dispenser for media, in particular flowable media, such as gaseous, powdered, liquid, mushy and / or similar media caused by pressure or with the help of a flow from a second medium flow through channels and emerge from the discharge device can.

In particular, highly viscous media, such as creamy, mushy or others, not under their own weight or only viscous Media that are free of alcoholic solvents or the like can be very difficult to apply in small quantities, if e.g. the nozzle channel discharging outdoors Width of less than two, one or half a millimeter has or if the medium is atomized by the discharge device to be delivered. To facilitate the discharge can use a second pump to add or convey medium promoted and the first medium in the outlet channel of the first Pump unit or directly at the inlet end of the nozzle end channel be fed. The second medium, for example air, is expedient with a volume that is several times higher, however with a pressure several times lower than the first medium together with this through the media outlet or nozzle channel promoted outdoors.

Different media, especially those related to their viscosity are different, need for an optimal, dosed discharge of discharge devices or Pump units with different performance features. Specifically that per unit of travel or speed of the pump stroke given ratio of delivery volumes and delivery pressures of the two pump units is based on the flow properties of the adapt to each medium. It may be sufficient to do this Features only one of the two pump units to vary constructively different training or omit this pump unit completely while the other Pump unit is always formed by the same pump, which before connecting to the second pump unit is pre-assembled ready for use. This means that this pump in the prefabricated state for generating pressure in a pump chamber two precisely guided against each other Has pump units. In the case of a push piston pump these are a pump housing and one that can be moved in it Piston unit, which at two in axial distance from each other areas without tipping and without radial play at or is guided only within the pump housing.

By actuating a pump tappet guided in this way, therefore with such a pump medium from the pump chamber discharged through the plunger and possibly from a Storage can be sucked into the pump chamber when the Pump is not combined with a pressure chamber of the second pump is. If only a flat ring-shaped piston with sealing lips is used, the one directly on the pump housing of the first pump attached, omitted, so there is a relatively high constructive effort for the mounting of this pump piston.

Furthermore, the inner width of the plunger to be arranged, manually operated discharge head always the same remain if this is the first pump housing on the outer circumference should spread closely.

The invention has for its object to a donor create the disadvantages of known training or of the type described are avoided and in particular it in a simple way, optionally a second pump to provide or not.

According to the invention, in relation to the first pump housing Direction of the pump stroke to be arranged essentially fixed Pump body of the second pump optionally over the in the described way pre-assembled first pump ready for operation so that it protrudes into the actuating head and this preferably over the first pump housing leads or centers. This guidance is useful in the Rest position, the stroke end position or all in between Positions are provided continuously and can be on both Outer circumference as well as on an inner circumference of the actuating head with or without radial play. The first pump body the second pump forms an optional one Assembly body, which is replaced by another assembly body can be replaced using the same bracket but does not contain a pump body.

The first pump housing has a downstream one End section or a housing end that with its central Housing space immediately a passage for the exit of the actuating plunger from this housing end limited downstream outermost end face of the pump housing forms and either over at least a third or half of the Total length of the second pump housing passes in one piece or by a separate, annular in cross section Housing cover is formed, which at most one Third or half of the total length of the first pump housing enough. The pump housing has an annular surface Support on the media storage or the like., With the support at the end and / or the surrounding the storage opening adjoining inner or outer peripheral surface of the Neck of the media storage can be done. This support surface is by one of the axially elongated mounting body separate component formed. The mounting body extends expediently upstream beyond the supporting surface and can have a length greater than half or two Third of its largest width is.

Opposite the pump housing, the fastener or the The neck is advantageously clamped, where a radial and / or an axial bracing can be provided, e.g. through a press fit, a Snap connection, a threaded connection, a crimp ring o. Like. Is given. The bracket can include a seal through which the housing space of the first pump housing as well as the pressure chamber of the second pump except for an inlet into this pressure chamber from the outside atmosphere is sealed. This inlet is preferably exclusive through the outlet channel or the nozzle opening of the Media outlet formed. This gives the inlet one narrowest diameter of at most the aforementioned nozzle width, so that the spring-controlled return movement of the Discharge device dampened to the rest position and the tough Medium is safely sucked into the first pump unit. In addition, due to the declining air flow, the media nozzle cleaned of media residues.

Further advantages can be achieved if the pressure chamber of the second pump at least immediately at the beginning of the pump stroke and continuously until it returns to the rest position via the Passage for the actuating plunger with the housing space of the first pump housing and via this with the storage space the media storage is wired. As a result, the Pump stroke from the pressure chamber into the media storage part the air pressed in during the return stroke the pressure chamber can flow and thereby the damping effect mentioned reduced. The air does not get into the Pump chamber of the first pump, but only in the downstream directly to the sealing point of the piston of this pump subsequent longitudinal section of the housing space. In the The rest position can pass through the first pump housing Duct connection for air must be closed with a valve, so that the storage space is then hermetically sealed from the outside is. The one generated in the store by the second pump Overpressure also facilitates the conveyance of the medium into the first pump.

To remove the detachably attached to the actuating plunger The assembly body can prevent the actuator head form a trigger safety device or a stop which a counter-stop of the actuating head in the Rest position strikes under the force of the return spring. The only one-piece return spring of the discharge device advantageously completely within the first pump housing provided and acts on the displaceable in this pump housing Piston or on a piston passing through this Exhaust valve body.

Fig. 1

ein erfindungsgemäßer Spender, teilweise im Axialschnitt sowie in Ruhestellung und

Fig. 2

eine weitere Ausführungsform in einer Darstellung entsprechend Fig. 1, jedoch links und rechts in unterschiedlichen Ausrüstungen.

These and further features of the invention are also apparent from the description and the drawings, the individual features being realized individually or in groups in the form of sub-combinations in one embodiment of the invention and in other fields and representing 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, partly in axial section and in the rest position and

Fig. 2

another embodiment in a representation corresponding to FIG. 1, but left and right in different equipment.

The dispenser 1 is used for attachment to a memory 2, namely a belly bottle so that the formed One-handed grip, carried and at the same time can be operated for media discharge. To promote the first medium from the memory 2 is a first pumping unit 3 and to promote the second medium, namely air a second pump unit 4 is provided, which is the first Pump unit or pump 3 and the memory 2 over a part of their length overlaps the outer circumference. Both pumps 3, 4 are operated together and simultaneously by two common actuation units 5, 6 each with shortening the discharge device 1 linearly shifted against each other will. The unit 5 includes the memory 2 and one Mounting body 7 and a fastener 8, with which a The basic body or housing of the pump 3 is free of play, however detachable non-destructively, are attached to the memory 2. The another unit 6 comprises a discharge and actuating head 9, which is exposed and the downstream end of the Dispenser 1 forms the upstream end thereof the bottom of the memory 2 is formed. All of the above Components lie coaxially to one another in a central axis 10. The pump 3 is parallel to the axis 10 of the first medium flows in the direction 11 to the head 9, which in turn in opposite direction 12 from the rest position over a Working or pumping stroke is to be moved manually and then in Direction 11 returns to the rest position under spring force.

The head 9 has the media outlet 14 at which the both media when discharging from the device 1 into the open atomized detach and its axis 13 perpendicular to Axis 10 lies. The pump 3 has a first pump housing 15 on that over most of its length in the memory 2 protrudes freely and an inner or upstream extreme end 16 within the store 2 and a downstream extreme end 17 forms outside the memory 2, that is always surrounded by the mounting body 7 and the head 9. The Housing 15 is made of only two axially adjacent Housing parts, namely a longer housing body 18 and a shorter housing cover 19 is formed, which the end face 17 forms and completely outside of the memory 2 lies so that the outermost, adjoining the end face 17 Outer periphery of the cover 19 the associated end portion of the extreme circumference of the entire housing 15 forms. over this outer circumference of the housing 15 is a flat, annular shoulder-shaped, supporting surface 20 pointing towards the end 16, which protrudes through the end face of a radially Ring flange 21 of the cover 19 is formed and, if necessary, under Liner of an annular seal 22 at the end or End face 24 of the storage neck 23 axially clamped as well is supported in a sealed manner. The storage neck 23 is opposite the storage belly axially adjoining in direction 12, surrounds the storage opening with the annular end face 24 and the housing body protrudes from this end face 24 18 contact-free through the storage neck 23 in the Memory belly into it. For mutual tensioning of the Surfaces 20, 24, the neck 23 has a counter member on the outer circumference, here an external thread 25 on.

The two housing sections 18, 19 are connected, like a completely inside the lid 19 Snap connection 26 which is non-detachably connected provided at the downstream end of the housing shell 27 is. The cover 19 surrounds the jacket 27 on the outer circumference and inner circumference up to the support surface 20 so that it with an approach in direction 12 protrudes into the jacket 27 and completely covers the end of the jacket 27 on the outer circumference. From the end 16 to the end 17, the housing 15 limits one both ends 16, 17 penetrating housing space 28, which from the end 16 to the cover 19 from the inner circumference of the jacket 27 and then to the end 17 of the inner circumference of the inner extension of the lid 19 is limited. The outer circumference this one-piece jacket 27 borders freely on the storage space as well as the seal 22. The room 28 forms in Individual rooms adjoining in the longitudinal direction, namely one upstream pressure or pump chamber of pump 3 and downstream of it one from the first medium Always free empty or air chamber 31, which in a central Passage 32 of the housing section 19 to the end 17th is continued. The chambers 29, 31 are by a Unit 6 belonging piston unit 30 tightly against each other separated, the actuating plunger 33 the passage 32 radially passed through and the pump piston 34 with its on Sheath 27 sliding sealing lip the chamber 29, 31 from each other separates.

The downstream end of the piston 34 of the Chamber 29 is closed by the valve seat according to FIG. 1 Exhaust valve 35 formed, which by overpressure in chamber 29 or by axially abutting the piston lip 34 in the housing 15 opens by the piston sleeve under resilient compression from the valve seat. This seat is through a the sleeve-shaped and one-piece piston body penetrating core body 36 is formed, which with the Piston body and completely within the plunger 33 first longitudinal section of an outlet channel for the first Medium limited. The downstream, sleeve-shaped End of the elastic piston body as well as the associated one End of the core body 36 is in the direction 11 in the associated End of the plunger 33 inserted firmly.

Downstream of the valve 35 is within the housing 15 further valve 37, namely a ventilation valve, whose movable valve body as with valve 35 by one conical portion of the piston body is formed while the valve seat through the upstream end of the inner projection of the cover 19 or the passage 32 is formed. The outer circumference strikes at this valve seat of the piston body sealed in the rest position, so that the connection between the passage 32 and the upstream lying section of the chamber 31 is interrupted. For Return of the units 5, 6 and the valves 35, 37 in the Rest position and therefore for closing the valves 35, 37 exclusively within the chamber 29 of the housing 15 only spring 38 is provided, its upstream End in the housing 15 and its downstream end on Body 36 is supported. The compression spring 38 is always axial biased. The pressure chamber 29 extends up to an inlet valve lying within the housing section 18 39 with a spherical valve body, which is free of spring loading at negative pressure in the chamber 29 to Storage space opens and closes when there is overpressure End 16 is upstream of valve 39. The chamber 31 is in the direction 12 adjacent to the valve 37 via an opening 41 permanently connected to the storage space. The axial slit Ventilation opening 41 passes through the jacket 27 only in Area of the chamber 31 and close to the support surface 20 on. As a result, the opening 41 opens into the annular Gap between the neck 23 and the jacket 27.

The plunger 33 is axially connected by two, dimensionally stable plunger sections 42, 43 formed, which are non-destructive are releasably connected. The piston unit 30 belonging portion 42 is always radial in the passage 32 guided and takes the associated ends of the piston body 34th and the core body 36 firmly. The direction 12 inserted over a narrowed end portion of section 42 Section 43 is in one piece with the cap-shaped head 9 trained and reaches the passage 32 during the working stroke. By pressing the head 9 in direction 12, the volume the chamber 29 reduced and the first contained in it Medium through the open valve 35 in the plunger section 42 and from its end in section 43 and head 9 promoted under pressure. When the head 9 is released from the Actuating force, the spring 38 first closes the valve 35, then moves the unit 6 back to the rest position and closes when this rest position is reached, valve 37 Return stroke is the first medium via the open valve 39 from the memory 2 into the enlarging chamber 29 sucked a flexible riser pipe 44, which by the End 16 is inserted into the housing 15 in the direction 11. During the forward and return stroke, namely when the is open Valve 37, air can pass through the passage 32 from outside the Pump 3 through the opening 41 into the storage space or in Reverse flow from the storage space to in Storage space to effect a pressure equalization.

The housing 15 and the body 7 are provided with a holder 40 radially and axially against each other and opposite the memory 2 backlash-free so that the body 7 and the in Direction 11 freely projecting housing section 19 together a fixed pump body of the unit 4, 5, namely form a displacement piston. The body 7 has a tight closed jacket 45, which the housing section 19th and the neck 23 each along the entire length and with a radial distance surrounds. There is a gap between its ends the inner circumference of the jacket 45 a ring disc Projection 46, which between two longitudinal sections 47, 49 of the jacket 45 lies. The upstream to the ledge 46 adjoining jacket section 47 forms the inside circumference Fastening member 8, namely an engaging in the counter member 25 Internal thread or, if applicable, a ring shoulder, which engages axially tensioned in a counter shoulder of the neck 23, that the support surface 20 clamped against the surface 24 becomes. Connects upstream at a distance from the projection 46 the associated end of the jacket section 47 or the fastening member 8 a protruding only over its outer circumference End wall 48 on, which is annular. In Direction 11 connects to the projection 46 of the shorter section 49 of the jacket 45. Section 49 can Extend at the end of 17 and expand conically in the direction of 11 be.

Up to the projection 46 are the housing part 19 and the Inner and outer circumference of section 49 of jacket 45 in a pressure chamber 50 extending into the head 9 second pump 4. Upstream from protrusion 46 only borders the outer circumference of the jacket 47 to this pressure chamber 50 which extends from the end wall 48 to the end wall 53 and is circular throughout its length. The pressure room 50 also extends permanently from the end 17 to to valve 37 and with valve 37 open into chamber 31, the opening 41 and the storage space.

The projection 46 rests with its associated end face the end 17 facing the end of the annular bead 21 and with its inner circumferential surface directly on the outer circumference of the Housing part 19 each with axial or radial preload and sealed to, so that thereby the pressure chamber 50 on this point permanently sealed pressure-tight to the outside is. A corresponding, axially offset seal can also by contacting the inner circumference of the jacket section 47 on Outer circumference of the flange 21 or the seal 22 and through System of the fastening member 8 formed on the counter member 25 be, so that a multiple seal like a Labyrinth seal results. On the outer circumference of the jacket 45 is the head 9 is guided with its inner circumference without radial play, for which project over this outer circumference axial ribs 51 which over the entire length of the jacket 45 to the end wall 48 range and with their edge surfaces the guide surfaces form. The air can flow between adjacent ribs 51 the two longitudinal sections of the pressure chamber 50 permanently are exchanged, namely between that in the head 9 lying section and the section surrounding the jacket 45. The areas 45 to 49 and 51 of the body 7 are integrally formed with each other. From the end of 16 to the end 17, the housing 15 is dimensionally stable. Equally stable throughout are the memory 2, the mounting body 7 and the head 9.

The cap-shaped head 9 has one of an end wall 53 only in the direction of 12 freely protruding cap jacket 52 on, which surrounds the plunger 33 at a distance and thereby with this the associated end part of the pressure chamber 50 is limited. The one-piece with the walls 52, 53 formed Tappet section 43 is from one to the tappet section 42 and its outlet section 54 adjoining the outlet section enforced, which is intended only for the first medium and with a channel section angled parallel to axis 13 is led to the outlet 14. A narrowed in the direction of flow Nozzle channel 56 passes through the one-piece end wall of an in the cap-shaped nozzle body 55 lying on the axis 13, which with his cap coat ahead of it Flow direction in an annular opening of the end wall 53 is firmly inserted. At the outer end of channel 56, namely at the nozzle outlet, the medium leaves the device 1. One piece engages with the end wall in the nozzle cap 53 trained nozzle core 57 so that between its End face and the inner end face of the end wall of the A swirl chamber 58 is formed, in which the medium rotates about axis 13 and is thus released directly into channel 56.

The outlet nozzle 14 is only in a partial circumference region of the end wall 53 which is thickened axially in the direction 12, which is penetrated by another channel 59. This Channel 59 is connected to the pressure chamber 50 by being in the Area of connection between the plunger 33 and the inner End of the nozzle body 55, the inner end face of the end wall 53 interspersed and angled from there and under narrowing is also led to the mixing chamber 58. Within the Nozzle body 55, the channels 54, 59 from the inner circumference of the Cap jacket and from the outer circumference of the nozzle core 57 limited. Several, e.g. three about the scope distributed, separate channels from channel 54 into chamber 58 be guided and in contrast fewer channels 59, e.g. just one only one. The channel 59 is both when emptying or Compression chamber 50 narrows toward outlet 14 flows through as well as in the opposite direction Filling or enlarging the chamber 50, since it is valve-free or is always permeable.

Against pulling the head 9 in the direction 11 from the piston unit 30 and the plunger part 42 is a form-fitting Retraction device 60 directly between the head 9 and the Body 7 provided. The upstream end of the Jacket 52 forms a protruding over its outer circumference, ring-shaped collar 63 as a stop, which of a corresponding counter stop of a cover body 61 is attacked. The sleeve-shaped cover body 61 also surrounds his jacket in the radial distance including the jacket 45 the end wall 48 over the entire length and extends to the Outside of the transition between the storage neck 23 and Memory belly. The inside circumference of this coat is over one Connection 62 directly to the outer circumference of the end wall 48 connected. This connection 62 can by an adhesive or Welded connection, a snap connection or a one-piece Connection if the body 61 is not as separate component from the shell 45 is formed. The downstream end of the shell of the body 61 is for Formation of the counter stop 64 radially to the axis 10 in the form of an annular disk angled and extends almost to the outer circumference of the jacket 52. According to FIG. 1, the stops 63, 64 to each other, thereby also the rest position of the device 1 can be secured. At the start of the working stroke, the Stop 63 from stop 64.

Between the head 9 and the end 63 of the shell 52 and the through the end wall 48 formed end of the body 7 is the Pressure chamber 50 at its outer periphery with a flexible Bellows 65 tightly closed, which with annular flanges 66 directly on the end wall 48 and the upstream lying end surface of the shell 52 with one of the Fastenings are held tightly based on the connection 62 are explained. The sleeve-shaped and non-contact Guide 51 surrounding bellows 65 can be in the initial position axially tight, for example bag-shaped thin Foil made of plastic, which when shortened by the working stroke is folded until the flanges 66 abut each other. The ring-shaped, rigid Flanges 66 can be formed in one piece with the bellows 65 and only protrude beyond its outer circumference, for example up to to the outer circumference of the collar 63. The bellows 65 can also through a zig-zag in axial section and in the rest position pre-folded bellows be formed. Instead of the shortenable Chamber closure 65 could also the jacket 52 in Area of the collar 63 carry a piston or in one piece form which seals on the inner circumference of the body 61 slides, the connection 62 would have to be designed to be pressure-tight.

The common stroke of the two pumps 3, 4 can be so large that at the end of the working stroke the downstream one End face of the mounting body 7 on the inside of the thickening the end wall 53 almost strikes, then expedient the flanges 66 are still spaced apart. For manual execution of the working stroke form the outer circumference of the deck housing 61 and the storage belly or its Bottom one handle 67 and the downstream one End face of the head 9 and the end wall 53 the other Handle 68, namely a pressure surface for a finger the same hand which also grips the handle 67. With Both chambers 29, 50 are reduced in size at the start of the working stroke and valve 37 is opened immediately. This flows Air from chamber 50 immediately and throughout Working strokes through the channel 59 from the outlet 14 and each according to the pressure conditions also through the passage 32 in the Memory 2 or out of this to channel 59. Only after Opening the valve 35 also flows the medium out of the chamber 29 through the channel 54 into the chamber 58, there with the second medium mixed evenly and as a swirl or Spray cone discharged from the outlet 14.

When the return stroke begins or when valve 35 closes the flow of the first medium from the chamber 29 is interrupted, while the air flow from the outlet 14 through the channel 59 may continue until the pressure in the Chamber 50 or in memory 2 except for the atmospheric Pressure has dropped. Since from this moment onwards Return stroke this pressure drops further, will now air in exclusively via outlet 14 and duct 59 the chamber 50 is sucked in while at the same time leaving the store 2 medium is sucked into the chamber 29 and air in the Memory 2 flows. This process continues until Reaching the rest position or until the valve closes 37 continues and is then ended, so that the device 1 is ready to dispense another media dose. By Varying the actuation speed can change the ratio of the two media in the discharge jet is always infinitely variable to be changed.

The pump 3 can also be used with a simple fastening cap be attached to the storage neck 23. This mounting cap can e.g. only the protrusion 46 and the jacket portion 47 and does not require sections 48, 49, 51. In in this case, in which the pump 4 is not provided, a head 9 is expediently used, the jacket 52 of which Collar 63 does not have. To assemble the pump 4 Bodies 7, 9 are preassembled to form an assembly unit, either by moving the head 9 in the direction 12 under radial mutual radial and resilient evasion of the collar 63, 64 is snapped into the body 7, 61 or by the Body 9 first in direction 11 into body 61 and then the body 7 in the same direction also into the body 61 used and the connection 62 is established. This The unit then also contains the bellows 65. Furthermore, this can Assembly unit also include the pump 3, which in the direction 11 in the body 7 to the stop on the projection 46 is. This assembly unit can then over the storage neck 23 put over and braced with the links 8, 25. It However, it is also conceivable to pump 3 first into memory 2 and then only the rest of the assembly unit in To slip on or put on direction 12, by itself the plug connection between the two plunger sections 42, 43 is produced.

In Fig. 2, corresponding parts are the same Reference numerals as in Fig. 1, but used with the index a. The description of each embodiment applies accordingly also for the other embodiment, each feature of the one embodiment can also be provided on the other can.

In the case of the dispenser 1a, the cap-shaped fastening member 8a forms one pre-assembled with the housing 15a or in one piece Snap or screw cap for attachment to not here illustrated memory. The cap end wall 21a extends in Direction 11a only up to the end surface 17a, which here to Pump chamber or including the tread for the Pump piston or up to the end 16a in one piece with the jacket 27a is formed. The end wall 21a forms with her Inside also the support surface 20a and that in the direction 12a over the support surface 20a protruding seal 22a, which as Ring rim surrounds the jacket 27a with a radial distance and with Radial distance within the internal thread of the fastener 8a lies. The seal 22a can be in the storage neck protrude and on the inner circumference under radial pressure issue. It is in one piece with the link 8a and the jacket 27a. The piston unit 30a is here with two separate, individual pistons located at an axial distance from each other guided tilt-free on the inner circumference of the jacket 27a. Of the Pistons closer to the head 9a can have a larger one Diameter than the piston delimiting the pump chamber and expediently also has one in the direction 12a free protruding piston lip for guidance on the jacket 27a. At the Piston lip past this downstream piston the storage space is ventilated during the working stroke. Both pistons can be in one piece with each other and with the Ram portion 42a may be formed. Only the downstream one lying plunger and not the plunger section 42a are therefore in the passage 32a directly against the jacket 27a Radial movements led.

The jacket 47a of the body 7a protrudes from the end 17a and End wall 21a in the direction 11a, so that he the tappet sections 42a, 43a immediately surrounds and always in the coat 52a protrudes. At the downstream end, the Sheath 47a a fully integrally formed with it Pump piston 49a, which is sealed with sealing lips on Inner circumference of the jacket 22a and on the outer circumference of the section 43a of the plunger 33a slides. Both on the outer circumference and the ring-shaped piston 49a also forms on the inner circumference two each protruding conically at an obtuse angle Sealing lips for guidance on the head 9a or on the tappet 33a. The End wall 48a and the upstream end of the Sheaths 47a are axially supported directly at end 17a, which goes through to the outer periphery of the link 8a. For this purpose, the projection stands over the inside of wall 48a 46a as an extension of the jacket 47a axially and engages in a recess 70 in the end surface 17a under axial and radial pressure sealed. The ring or groove-shaped Recess 70 is only open in the direction 11a and lies radially immediately adjacent to the passage 32a. The links 46a, 70 can also be designed as snap links be the body 7a against pulling in the direction 11a secure form-fitting. The space inside the jacket 70 can be sealed to the outside or the storage ventilation to serve.

At the extreme periphery, the wall 48a only goes in one direction 12a freely projecting cap jacket 69, which radially braced on the outer circumference due to its internal spring forces of the cap jacket of the fastening member 8a. This jacket 69 has at its upstream end a holding or snap member protruding over its inner circumference 71 of the holder 40a, which in a counter member 72, namely a radial groove in the jacket of the link 8a radially preloaded, interlocking and sealed, and thereby the ring-shaped holding member 46a into the recess 70 presses. The pump 3a can with the fastening member 8a Storage are attached, after which only the body 7a put on and to fix the head 9a before or after it is.

The trigger protection 60a is here on the inner circumference of the jacket 52a is provided, which is formed in one piece with it Stop 63a forms, namely cams distributed over the circumference or a continuous ring projection. At this stop 63a the piston 49a can directly and only with that Hit the piston lip, which is tapered in the direction 12a extends on the jacket 52a slides. The jacket 47a closes in the middle between the outer and inner circumference of the piston 49a on this, namely on an annular disk-shaped Midsection, the inside and outside circumference in each two separate piston lips merges. The head 9a can with the body 7a pre-assembled and then on the pump 3a and Cap 8a are placed.

As can be seen on the right in FIG. 2, the piston body can 7a are replaced by a piston-free body 7b, the Jacket 47b has a larger diameter than jacket 47a may have, radially outside of the recess 70 at the end 17a is supported and at the free end over its outer circumference protruding stop 64b in the form of a snap member forms. The body 7b is fastened with a holder 40b, which is the same as the bracket 40a and their Snap member 71b engages in the annular groove 72. The front wall 48b and the jacket 69b correspond to the walls 48a, 69. The Body 7b is to be assembled in the same way as body 7a.

As can be seen in dash-dot lines on the right in FIG. 1, the Sheath 47c with its upstream end too directly on the outer circumference of the housing section 19 with the Bracket 40c be attached. In this case, the counterpart is 72c with a distance between the end 17 and the flange 21 provided, over which the jacket 47c in the direction 12 does not protrudes. The snap member engaging the annular groove 72c is formed in one piece with the jacket 47c and only stands over its inner circumference. Even with this training can the head absorbs section 19 during the working stroke. Similar to FIG. 2, the jacket 47c forms in the rest position an outermost protective jacket, which the plunger 33a between the actuator head and the first pump completely covers and is freely accessible on the outside.

The discharge nozzle of the head 9a has an annular one Core body 57a, which is separate from the body 55a and from the head 9a is formed. In the axis 13a of this body 57 opens a transverse channel 73 adjoining the axial channel 54a against an impact surface 74 which is within the annulus of the body 57a in a prechamber of the mouth of the transverse channel 73 is opposite. The obtuse angle against the flow direction conical protruding baffle 74 extends to Inner circumference of the ring portion of the body 57a and this The inner circumference, together with the baffle surface 74, limits the Pre-chamber, which is expanded compared to channel 73. On this inner circumference are then axial about the axis 13a or, in a radial view, distributed oblique nozzle channels 75, which connect the pre-chamber to the mixing chamber 58a and the Push through baffle 74. Radially inside this wreath the baffle 74 is closed by channels 75, namely by an integral part of the ring section Inner core formed in the flow direction over the ring section protrudes into the mixing chamber 58a, but in the opposite direction Flow direction only over part of the length of the ring section enough. Through the channels 75 several separate Sprayed into the mixing chamber 58a, there only mixed with the air from the pump 4a and then atomized again as it emerges from the nozzle channel. Out the channels 75, the media jets can radially outward emerge directed against the inner circumference of the mixing chamber 58a.

For assembly, the bodies 55a, 57a can be pre-assembled and then be inserted into the head 9a. But it can also be first the nozzle core 57a up to the stop on the head 9a and only then the nozzle cap 5a are used.

All specified properties and effects can be precise or only provided essentially or as described be and also vary greatly depending on the requirements. All parts of the device can be made of plastic exist, in particular plastic injection molded parts.

Claims (14)

Media dispenser, characterized in that a first pump unit (3) is provided, which is a first Pump housing (15) with one in the flow direction outermost housing end (17), a central innermost, e.g. the outer housing end (17) with a passage section (32) penetrating housing space (28) and one if necessary in one piece with the outermost end of the housing (17) trained support surface (20) for axial support a media store (2) that in particular a second pump (4) for a second medium, such as air or the like, is provided for changing the volume of a pressure chamber (50) one fixed and one movable Pump body (49, 52) comprises, the fixed Pump body (49) on one of the support surface (20) separate or surrounding the housing space (28) on the outside Mounting body (7, 7a, 7b) provided, but with a Bracket (40) opposite the first pump housing (15) can be arranged essentially axially fixed and that preferably a fastening member (8) for axial tension of the support surface (20) against the media storage (2) and one opposite the support surface (20) via a pump stroke from a rest position to a stroke end position movable actuating head (9) are provided, which is arranged on an actuating plunger (33), which in the outer housing end directly the passage section (32) limited. Dispenser according to claim 1, characterized in that the Bracket (40, 40a) interlocking holding members (21, 46 or 46a, 70; 71, 82), namely a formed in one piece with the outer housing end first holding member (21 or 70, 72) and one piece with second mounting member formed on the mounting body (7, 7a) (46 and 46a, 71), which are completely outside the Housing space (28) that in particular the holding members biased mesh and that preferably the holder (40, 40a, 40b) at least one Forms a sealing point with which the housing space (28) is sealed to the outside. Dispenser according to claim 1 or 2, characterized in that that the holder (40, 40a, 40b) has a recess (70, 72) and a projection (46, 46a, 71) comprises in particular that the projection (46, 46a, 71 is annularly closed and that preferably the projection (46, 46a, 71) as a web on the mounting body (7, 7a) is provided. Dispenser according to one of the preceding claims, characterized characterized in that the mounting body (7, 7a, 7b) at least as long as the pump stroke is that in particular the first pump housing (15, 15a) one with its outermost end face (17, 17a) one-piece, annular Front wall (21, 21a), which on one end face the support surface (20, 20a) and on the other end face with the mounting body (7, 7a, 7b) the holder (40, 40a, 40b) and that preferably the mounting body (7, 7a, 7b) the end wall (21, 21a) on the outer circumference spreads. Dispenser according to one of the preceding claims, characterized characterized in that the mounting body (7, 7a) a annular, from the first pump housing (15, 15a) and the end face (48, 48a) of the support surface (20, 20a) has that in particular from the end wall (48, 48a) a projection (45, 47a) in the direction of flow (11, 11a) protrudes, which is fixed to the mounting body Pump body (49, 49a) and that preferably the fixed pump body (49, 49a) in one piece with the Projection (45, 47a) and the end wall (48, 48a) of the Mounting body (7, 7a) is formed. Dispenser according to one of the preceding claims, characterized characterized in that the mounting body (7, 7a) the Media storage (2) surrounds and into the actuating head (9, 9a) protrudes that in particular the fastening member (8, 8a) and the first pump housing (15, 15a) and the support surface (20, 20a) within the mounting body (7, 7a, 7b) and that preferably the Mounting body (7, 7a, 7b) from the bracket (40, 40a, 40b) in and against the flow direction (11, 11a) protrudes. Dispenser according to one of the preceding claims, characterized characterized in that for the actuating head (9, 9a) positive trigger protection (60, 60a, 60b) provided is that in particular the trigger protection on the mounting body (7, 7a, 7b) a stop (64, 64b) for the actuating head (9, 9a) and that preferably interlocking Securing elements (63a, 64b) of the trigger protection (60b) formed by resilient snap members are. Dispenser according to one of the preceding claims, characterized characterized in that the mounting body (7) at least partially in one piece with the fastening member (8) is formed that in particular on the actuating plunger (33) adjacent pressure chamber (50) the first Pump housing (15), the fastener (8) and the Media storage (2) surrounds and that preferably the Pressure chamber (50) around the displacement piston (49) with a flexible bellows (65) is sealed, which with ring flanges (66) close to the mounting body (7) and Actuating head (9) connects. Dispenser according to one of the preceding claims, characterized characterized in that the mounting body (7) is a sleeve (45) forms the inner circumference directly at the store (2) is supported and adjacent in the direction of flow (11) for this purpose the bracket (40) forms that in particular the first pump housing (15) directly to the pressure chamber (50) and that preferably the mounting body (7) wearing a protective jacket (61), which the Actuating head (9) and the pressure chamber (50) surrounds the outside. Dispenser according to one of the preceding claims, characterized characterized in that a the first pump housing (15) from Pressure chamber (50) penetrating into the media store (2) Air duct is provided that in particular Air duct within the first pump housing (15) from Actuating plunger (33) is limited and upstream from the support surface (20) into the media store (2) opens and that preferably a the air duct in the Locking the rest position as well as during the pump stroke opening valve (37) is provided. Dispenser according to one of the preceding claims, characterized characterized in that the fastening member (8, 8a) as Cap is formed that in particular the fastener (8a) within a top cap (48a, 69) of the Mounting body (7a) arranged and with this over the Bracket (40a) is connected and that preferably the Cover cap with a snap connection (71, 72) or the like. is attached to the fastening member (8a). Dispenser according to one of the preceding claims, characterized characterized in that the fastener (8a) and outer housing end of the first pump housing (15a) are formed in one piece with each other, in particular the mounting body (7, 7a) including the fixed Pump body (49, 49a) up to the bracket (40, 40a) is formed in one piece and that preferably the Actuating head (9) at least in the stroke end position surrounds the extreme end of the housing (19). Donor, in particular according to the preamble of the claim 1, characterized in that the actuating head (9, 9a) a mixing nozzle with a mixing chamber (58, 58a) to which the first pump unit (3, 3a) and the pressure chamber (50, 50a) of the second pump (4, 4a) separate channels (54, 59 or 54a, 59a) connected are that in particular in the mixing chamber (58a) at least an atomizing nozzle (75) of the discharge channel (54a) the first pump unit (3a) opens and that preferably the mixing chamber (58a) is designed as a swirl chamber which is directly into a second atomizer nozzle opens at which the medium emerges from the dispenser (1a). Dispenser according to one of the preceding claims, characterized characterized in that the second pump unit (4, 4a) in essentially only sucks in via the media outlet (14, 14a), that in particular the media outlet (14a) two Nozzle body (55a, 57a) with two at an axial distance successive baffles (74) for the medium is assigned and that preferably one of the baffles (74) in the direction of flow at transfer channels (75) and from a nozzle cap (55a) trained nozzle body is surrounded, the one in the axial distance end wall lying from the transfer channels (75) forms the second baffle and from one into Free opening nozzle bore (56) is penetrated.

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