EP2703070A2 - Mixture regulating valve and process - Google Patents

Abstract

The apparatus (100) has one and another conduits (101,102) for conveying one and another fluid mediums (106,107), where a valve (119) is provided in communication with the conduits. A position adjustable valve control body (113) is provided with an opening, where the quantity of one medium is transferred to another medium, while latter medium is mixed, by adjusting the control position of the valve control body by using the opening of the valve control body. The valve comprises a diaphragm actuator with a positioner for control position change of the valve control body. An independent claim is included for a method for the production of fluid mixtures.

Description

State of the art

The invention relates to a device specified in the preamble of claim 1. Art and a method specified in the preamble of claim 13 Art.

In the food and beverage industry, mixing processes, e.g. the mixture of at least two media or product components, a frequently occurring production step in the production of fluid mixtures, in particular e.g. of drinks.

Of great importance here is inter alia accurate metering of the media or product components to be mixed, e.g. to avoid a reduction in the quality of the product to be produced.

Usually, the dosing and mixing of the product components take place spatially and temporally separated from each other in the mixing or mixing plants provided for this purpose.

The DE4123047A1 describes, for example, a plant and a method for mixing beverage components, in particular syrup and water, wherein the first component is introduced from a storage room into a measuring room with a certain volume, the second component is metered according to the desired mixing ratio and then discharged both components into a collecting space become. The measuring space when introducing the first component is only partially filled and then the second component is metered added according to the measured amount of the first component.

The DE4114673C1 describes, for example, a plant and a method for mixing beverage components, in particular syrup and water, in which the components for metering are introduced into receiving spaces, wherein the feed to the first receiving space is guided through the second receiving space, and thereby the component located in the second receiving space , In particular syrup, is entrained by an inflowing, further component, in particular water, in the first receiving space and the second receiving space is traversed by the flow of the first receiving space.

Described systems with spatially separate dosage and mixture of beverage components have the disadvantage, inter alia, that a relatively large amount of space is required and can arise during startup and shutdown large mixed phases

task

It is therefore an object of the invention to improve a device for the production of fluid mixtures, in particular in terms of efficiency and compactness.

soldering

This is inventively achieved by a device according to claim 1 and a method according to claim 13. Advantageous embodiments and further developments are the subject of the dependent claims.

In this case, an apparatus for producing fluid mixtures, in particular e.g. of beverages, at least a first and a second conduit for conveying at least a first and a second fluid medium, and having at least one valve with a positionally adjustable valve control body.

The valve may be in communication with the first and second conduits and the valve control body may have at least one opening. By releasing the at least one opening, conditioned by the adjusting position of the valve regulating body, can then be transferred by means of the at least one opening of the valve regulating body controllable by the adjusting position of the valve regulating body amount of the first medium to the second medium and simultaneously mixed into the second medium.

The valve can thus advantageously be used simultaneously for metering and for mixing fluid mixtures with at least two fluid mixture components and also be referred to as a mixing control valve.

Among other things, this valve advantageously permits a more compact design of devices for producing fluid mixtures, since the addition of at least one first medium / first fluid mixture component to a second medium / second fluid mixture component and the mixing of the at least two media / fluid mixture components can take place simultaneously in one location ,

It should be noted that within the scope of the invention, the terms medium and fluid medium are considered as synonymous, and under a fluid mixture / media mixture in principle any mixture fluidizable media such as liquids and / or gases can be understood. Also, a fluid medium may contain solids in dissolved form. However, solid particles may also be partially undissolved in the form of a suspension. As a preferred medium / a preferred fluid mixture component may be mentioned, for example syrup, for example, fruit syrup or sugar syrup, for the production of sugary drinks. Fruit juice concentrates or flavors and other components can also be mixed herewith.

Furthermore, it should be understood that a release of openings, especially in contact with the openings of the valve regulating body with the medium to be mixed in the.

The adjustment position change of the valve regulating body can otherwise take place, for example, continuously or stepwise.

The cross section of the at least one opening of the valve regulating body can have one of the following shapes: circular or elliptical, polygonal, e.g. Star shape, square or rectangular shape, or a slot shape.

The valve regulating body has a plurality of openings with the same or different cross-sectional shapes.

A plurality of openings of the valve regulating body can advantageously improve the efficiency of the mixing of the media.

The choice or variety of the cross-sectional shape (s) for the opening / openings can, inter alia, advantageously facilitate the regulation or metering of the added amount of a medium.

The valve regulating body may have a cylindrical shape. In particular, the valve regulating body may have a cup shape, wherein the valve body bottom may be designed as shut-off and the at least one opening or the plurality of openings may be located on the Ventilregelkörperbewandung, and the valve body bottom opposite valve body side may be open.

The valve control body may also have other geometry shapes, e.g. to Stellwegachse, or longitudinal axis of the valve body, rotationally symmetric shapes, such. Cone shapes.

The valve may have a diaphragm drive with or without a positioner for adjusting the position or control of the valve body. Other actuator forms for valve driving, such as e.g. electric, pneumatic or hydraulic, can also be realized.

The valve can be designed as a single-seat valve or double-seat valve.

The device for producing fluid mixtures can also be designed so that when adjusting position change of the valve body, the minimum distance between the valve body wall and valve seat remains the same.

To avoid or reduce dead spaces within the device for producing fluid mixtures, the valve may be designed as a T-valve.

Exemplary valve housing variants are in Fig. 4 shown.

The valve may also be designed so that the characteristic, i. the dependence of the media flow from the travel (stroke) or the adjustment position of the valve body, can be linear or equal percentage.

With a linear characteristic, e.g. be achieved advantageously that the valve lift in percent equal to the media flow in percent of the maximum possible media flow.

With an equal percentage characteristic, e.g. be advantageously achieved that at each setting position of the valve body for the same stroke or Stellwegänderung of the valve body, an equal percentage change in the valve flow, based on the valve flow area of the respective output setting position of the valve body can take place. As a result, it is advantageously possible to realize a fine regulation of the medium flow both in the almost completely open and in the almost closed state of the valve.

The maximum K _V value of an exemplary valve according to the invention at rated lift, ie at 100% opening degree, also referred to as K _VS value, can be between 0.1 and 160 m ³ / h, with valve seat diameter between 3 and 100 mm.

Exemplary nominal diameters or inner diameters of the media delivery conduits may vary depending on the size of the equipment and its rating, e.g. between 10 and 150 mm.

Advantageously, an apparatus for producing fluid mixtures, in particular the valve or the valve regulating body and the media-carrying lines, may be designed such that a cleaning, e.g. on the spot and without modification, by backwashing is possible.

In a method according to the invention for producing fluid mixtures, in particular beverages, in which at least one first medium in a first line with at least one The second medium is mixed in a second line, first at least one adjustment position change of the valve regulating body of a valve, which is in communication with the first and second line, take place and then a controllable by the adjusting position of the valve regulating body amount of the first medium to the second medium by release the at least one opening of the valve regulating body, are transferred due to the adjustment position change of the valve regulating body, and at the same time the first medium are mixed into the second medium.

• Fig. 1 : Vorrichtung zur Herstellung von Fluidgemischen
• Fig. 2 : Alternative Vorrichtung zur Herstellung von Fluidgemischen
• Fig. 3a : Ventilregelkörper
• Fig. 3b : Alternativer Ventilregelkörper
• Fig. 4 : Ventilgehäusegeometrien

The following figures are an example:

• Fig. 1 : Device for producing fluid mixtures
• Fig. 2 : Alternative device for the preparation of fluid mixtures
• Fig. 3a : Valve body
• Fig. 3b : Alternative valve regulator
• Fig. 4 : Valve body geometries

The Fig. 1 exemplifies a device 100 for the production of fluid mixtures, in particular of beverages, is.

In this case, a first fluid medium 106 flow in a first line 101 with flow direction 103.

A second fluid medium 107 may flow in a second conduit 102 with flow direction 104.

A valve 119 with valve seat 116 may be in communication with said conduits 101 and 102. The valve 119 may include a valve rod 110 and a valve regulating body 113. The actuating position of the valve 119 or of the valve regulating body 113 can be variable in the direction / or directions 109 along the longitudinal axis 111. The drive of the valve 119 for positional change is not shown, but as described above, e.g. by means of a diaphragm drive, or electric, pneumatic or hydraulic drive, as well as with or without positioner.

The valve control body 113 may be cylindrical or cup-shaped, ie, for example, the valve body interior 120 may be limited on the bottom side 118 of the check 112 and the side of a lateral Ventilregelkörperbewandung 114. The the valve body bottom 118 opposite valve body side 115 may be open, so that, for example, a valve rod 110 can be added or imported.

Through the open valve body side 115 fluid media can penetrate into the valve body interior 120, for example, the first fluid medium 106. The valve body 113 can also openings (not shown, but see, for example Fig. 3a or Fig. 3b ), for example openings in the lateral Ventilregelkörperbewandung 114 which may also be permeable to fluid media and can penetrate through the fluid media in the Ventilregelkörperinnenraum 120. However, the shut-off body 112 may be impermeable to fluid media.

In the illustrated valve control position, e.g. the shut-off body 112 on the valve seat 116, the valve 119 is thus closed and there is no mixing of the media from the first conduit 101 with media from the second conduit 102 instead.

However, if there is a change in the valve body position instead, for example, a change in position of the valve body 113 along the longitudinal axis 111 in the direction of the second line 102, the valve 119 may open. In this setting position change, therefore, the valve regulating body 113 can penetrate into the second conduit 102 or into the second medium 107, and the first medium 106, which may already be located in the valve regulating body interior 120, can open via openings (not shown, but see, for example, FIG Fig. 3a or Fig. 3b ) of the valve regulating body 113 penetrate into the second conduit 102, where it can mix with the second medium 107 and form a fluid mixture 108 which can continue to flow in the direction 105 through the second conduit 102 towards any further method steps.

Depending on the setting position of the valve regulating body 113, the number of openings of the valve regulating body 113 or the opening cross-sectional area of individual openings, or one of the integrated cross-sectional area of a number of openings, which can come into contact with the second medium 107, can be changed. Thus, the flow of a first medium 106 from the first conduit 101 into a second medium 107 of the second conduit 102 can thus be regulated by means of a setting position change of the valve regulating body 113.

In other words, by changing the setting position of the valve regulating body 113, the amount of the first medium 106, which can be transferred to a second medium 107, as well as the mixing-mixing of the two media 106, 107 can be controlled.

It should also be noted that the valve 119 may be configured so that during a position change of the valve regulating body 113, the minimum distance 117 between the valve regulating body wall 114 and the valve seat 116 may remain the same.

The Fig. 2 exemplifies a device 200 for the preparation of fluid mixtures, in particular drinks. The device 200 may include features of the device 100, or be combined with features of the device 100.

Analogous to Fig. 1 For example, a first fluid medium 206 may flow in a first conduit 201 with a flow direction 204, and a second fluid medium 207 may flow in a second conduit 202 with a flow direction 203.

A valve 217 with valve seat 215 may be in communication with said conduits 201 and 202. The valve 217 may include a valve rod 210 and a valve regulating body 213. The positioning position of the valve 217 or of the valve regulating body 213 can be variable in the direction / or directions 209 along the longitudinal axis 211. The drive of the position change actuator 217 is not shown, but may be as generally described above, e.g. by means of a membrane drive, or electric, pneumatic or hydraulic drive, as well as with or without positioner.

However, it is also conceivable that, for example, the setting position of the valve regulating body 213 can be changed hydrodynamically. For example, by a change in the pressure in line 202 or the flow rate of the second medium 206 with a suitable flow cross section of the valve body 213 and presence of a sufficiently large pressure gradient between line 201 and line 202, or between medium 207 and medium 206, the valve body 213 along the longitudinal axis 211 moves, for example lifted or lowered.

The valve control body 213 may have a rotationally symmetric shape, e.g. a conical shape. The shape of the valve control body 213 may be closed except for openings (not shown) in the valve body wall 219, i. the valve regulating body 213 may have a valve regulating body interior 218 which may be bounded from all sides, namely by the closing body 212 on the base side of the valve regulating body 213 and the valve regulating body wall 219 on the remaining valve regulating body sides.

The valve rod 210 may be connected via the shut-off body 212 with the valve regulating body 213.

Through the openings (not shown) in the valve body wall 219, fluid media may enter the valve body interior 218, such as, for example, as shown in FIG. the second fluid medium 206.

However, the shut-off body 212 may be impermeable to fluid media.

In the illustrated valve control position, e.g. the shut-off body 212 on the valve seat 215, the valve 217 is thus closed and there is no mixing of the media from the first line 201 with media from the second line 202 instead.

However, if there is a change in valve body position, e.g. a positioning change of the valve body 213 along the longitudinal axis 211 in the direction of the first line 201, the valve 217 can open. In this setting position change, therefore, the valve regulating body 213 can penetrate into the first line 201 or into the first medium 207, and the second medium 206, which may already be located in the valve regulating body interior 218, can open into the first through openings (not shown) of the valve regulating body 213 Line 201 penetrate where it can mix with the first medium 207 and form a fluid mixture 208 which can continue to flow in the direction 205 through the first line 201 toward any further process steps.

Depending on the setting position of the valve regulating body 213, the number of openings of the valve regulating body 213 or the opening cross-sectional area of individual openings, or one of the integrated cross-sectional area of a number of openings, which can come into contact with the first medium 207, can be changed. Thus, the flow of a second medium 206 from the second line 202 into a first medium 207 of the first line 201 can thus be regulated via a setting change in the position of the valve regulating body 213.

In other words, the amount of the second medium 206, which can be transferred to a first medium 207, as well as the mixing-mixing of the two media 206, 207, can be regulated or controlled by changing the setting position of the valve regulating body 213.

The Fig. 3a exemplifies a possible valve control body 300.

The valve control body 300 may be cylindrical or cup-shaped, ie, for example, the valve body 308 may be bounded on the bottom side 309 by the shut-off body 305 and laterally by a lateral Ventilregelkörperbewandung 306. The valve body bottom 309 opposite valve body side 301 may be open, so that, for example, a valve rod ( not shown) can be added or imported.

Through the open valve body side 301 fluid media can penetrate into the valve body interior 308. The valve control body 300 may also include openings (302, 303, 304) in the lateral valve body wall 306 which may also be permeable to fluid media and through which fluid media may enter the valve body interior 308. However, the shut-off body 305 may be impermeable to fluid media.

The cross-section of openings (302, 303, 304) can have a variety of shapes and sizes. In principle, the size, shape and number of openings may be determined by the mixing process requirements, for example, depending on the volume, mass or contents of the media streams.

Shown herein are, for example, circular or ellipsoidal shape 304, and slot shape 302, 303, e.g. with rounded corners.

While the slot-shaped openings 302, 303 in the illustration are arranged in slot length, for example, parallel to the longitudinal axis 307 of the valve regulating body 300, of course arrangement of slot-shaped openings are not conceivable parallel to the longitudinal axis 307 of the valve regulating body 300.

The valve regulating body 300 may have a plurality of openings with the same or different cross-sectional shapes and cross-sectional sizes. Shown here are, inter alia, e.g. slit-shaped openings 302, 303 of different lengths.

For example, slit-shaped openings 302, 303 can have expansions (average width x average length) in mm of 1 × 4; 2 X 4; 1 x 8; 2 x 8; 3 x 8; 4 x 8; 1x12, 2x12; 3 x 12; 4 x 12; 5x12; 6x12; 1 x 16, 2 x 16; 3 x 16, etc. mm.

The openings (302, 303, 304) can be arranged, inter alia, in rows around the longitudinal axis of the valve regulating body, with the same or different row spacings.

Circular openings 304 may have, for example, average diameters of 1 to 30 mm.

Oval / elliptical openings may have mean major axis diameters of 2 to 30 mm, the mean diameter of the major axis may be, for example, between 0.1 and 0.9 fractions of the mean major axis diameter.

Also, diamond-shaped openings are conceivable with comparable dimensions, i. for example, with mean distances between opposite corners between 2 and 30 mm.

The number of openings may be for example between 1 and 1000 or more, with preferred numbers increasing with throughput at 2, 3, 4, 8, 9, 10, 12, 15, 16, 20, 24, 28, 32, 36, 40, 48, 56, 64, 72, 80 openings can lie.

The openings may e.g. may also be arranged evenly over the valve body / the Ventilregelkörperbewandung as a spray ball.

In addition, openings may also be only partially arranged, i. Parts of the valve body or the Ventilregelkörperbewandung may have no opening.

Likewise, the arrangement of the openings in the valve regulating body or the Ventilregelkörperbewandung be carried out as in a canned sieve.

Said cross-sectional shapes and cross-sectional sizes, as well as arrangements of the openings in the valve body or in the Ventilregelkörperbewandung can be arbitrarily combined.

Regardless of variants, the valve regulating body 300 can be cleaned with regard to the geometries of the openings, in particular by backwashing.

The 3b exemplifies another possible valve control body 400.

Like the previously described valve control body 300, valve control body 400 may be cylindrically shaped, i. e.g. the valve body interior 411 may be bounded on the bottom side 410 by the shut-off body 406 and laterally by a lateral valve body wall 408.

However, apart from a recess 407 for receiving a valve rod (not shown) and a plurality of openings 402, unlike valve regulating body 300, the valve-regulating-valve side 401 opposite the valve-control-body bottom 410 may be closed.

Through the openings 402 in the valve body upper side 401 fluid media can penetrate into the valve body interior 411.

Also, the valve regulator body 400 may include openings (403, 404, 405) in the lateral valve body wall 408 which may also be permeable to fluid media and through which fluid media may enter the valve body interior 411. However, the shut-off body 406 may be impermeable to fluid media.

The cross-section of openings (402, 403, 404, 405) can have a variety of shapes and sizes. Shown here are, for example, square or rectangular shape 405, or rectangular slot shapes 403, 404 for the openings in the lateral valve body wall 408, and circular or elliptical cross-sections for openings 402 in the valve body upper side 401.

Valve body 400 may have a plurality of orifices (402, 403, 404, 405) having the same or different cross-sectional shapes and cross-sectional sizes. Shown here are e.g. slit-shaped openings 403, 405 of different lengths.

While the slot-shaped openings 403, 404 in the illustration are arranged in slot length, for example, parallel to the longitudinal axis 409 of the valve regulating body 400, of course arrangement of slot-shaped openings are not conceivable parallel to the longitudinal axis 409 of the valve regulating body 400.

In general, among other things, number and / or shape and / or extent and / or arrangement of the openings 402, 403, 404, 405 as in 3a be executed described.

Also valve control body 400 can be cleaned independently of variants with respect to the geometries of the openings, in particular by backwashing.

It should be noted at this point that the features of the valve control bodies 300 and 400 can be combined with each other, in particular e.g. in terms of the cross-sectional shape of openings of the valve body.

The Fig. 4 exemplifies four different geometry variants 501, 502, 503, 504 for valve body or pipes.

The valve housing or the main element of the valve housing body 525, 526, 527, 528 may be, for example, a ball housing, but of course cubic or other shapes are conceivable, for example, depending on the geometric requirements of the wiring. Valve body geometry 501 represents, for example, an arrangement in which two pipe stubs 505, 506 on opposite sides of the valve housing 525 represent the connection to a first conduit 517.

However, it is also conceivable that lines can be connected directly and without pipe socket with the valve body.

The valve housing 525 may include a housing recess 507 for receiving a valve, and a second valve housing recess 529 for connection (via or, as shown, without pipe sockets) to a second conduit 518.

The planes in which the lines 517 and 518 extend can be perpendicular or oblique to one another. In addition, the pipe stub 506, 505 may be equal to or different from 180 ° to each other at an angle.

Valve housing geometry 502 represents, for example, an arrangement analogous to the valve housing geometry 501, but only with a pipe socket 511 for the connection to a first line 519, which may end in the valve housing 526 or emanate from there.

The valve housing 526 may include a housing recess 508 for receiving a valve, and a second valve housing recess 530 for connection (via or, as shown, without pipe sockets) to a second conduit 520.

The planes in which the lines 517 and 518 extend can be arranged perpendicularly or at an angle to each other.

Valve body geometry 503, for example, represents an arrangement analogous to valve body geometry 502, i. a pipe stub 512 may connect to a first conduit 521 which may terminate in or exit the valve housing 527.

The valve housing 527 may in turn have a housing recess 509 for receiving a valve. One of the housing recess 509 opposite another valve housing recess 531 can connect to a second line 522 via a T-shaped pipe socket 513.

The planes in which the lines 521 and 522 extend may be parallel or oblique to each other.

Valve body geometry 504, for example, represents an arrangement analogous to valve body geometry 503, but with two pipe stubs 514, 515 on opposite sides of the valve body Valve housing 528 represent the connection to a first line 523. The pipe sockets 514, 515 can be at an angle equal to or different from 180 ° to each other.

The valve housing 528 may in turn comprise a housing recess 510 for receiving a valve. A further valve housing recess 532 lying opposite the housing recess 510 can connect to a second line 524 via a T-shaped pipe socket 516.

The planes in which the lines 523 and 524 extend can be parallel or oblique to one another.

Instead of T-shaped pipe stub the use of L-shaped or V-shaped pipe stub is conceivable, moreover.

This is followed by 4 sheets with 5 figures.

• 100 Vorrichtung zur Herstellung von Fluidgemischen, insbesondere von Getränken
• 101 Erste Leitung zur Beförderung wenigstens eines fluiden Mediums
• 102 Zweite Leitung zur Beförderung wenigstens eines fluiden Mediums
• 103 Flussrichtung eines ersten fluiden Mediums
• 104 Flussrichtung eines zweiten fluiden Mediums
• 105 Flussrichtung eines Fluidgemisches, beinhaltend Komponenten des ersten und zweiten fluiden Mediums
• 106 Erstes fluides Medium
• 107 Zweites fluides Medium
• 108 Fluidgemisch, beinhaltend Komponenten des ersten und zweiten fluiden Mediums
• 109 Bewegungsrichtung des Ventilregelkörpers
• 110 Ventilstange
• 111 Längsachse des Ventils / der Ventilstange bzw. des Ventilregelkörpers, Stellwegachse
• 112 Absperrkörper
• 113 Ventilregelkörper
• 114 Ventilregelkörperwand, laterale Ventilregelkörperbewandung
• 115 Ventilregelkörperoberseite / dem Ventilregelkörperboden gegenüberliegende Ventilregelkörperseite
• 116 Ventilsitz
• 117 minimaler Abstand zwischen Ventilregelkörperwand und Ventilsitz
• 118 Ventilregelkörperboden
• 119 Ventil
• 120 Ventilregelkörperinnenraum
• 120 Ventilkörperinnenraum
• 200 Vorrichtung zur Herstellung von Fluidgemischen, insbesondere von Getränken
• 201 Erste Leitung zur Beförderung wenigstens eines fluiden Mediums
• 202 Zweite Leitung zur Beförderung wenigstens eines fluiden Mediums
• 203 Flussrichtung eines zweiten fluiden Mediums
• 204 Flussrichtung eines ersten fluiden Mediums
• 205 Flussrichtung eines Fluidgemisches, beinhaltend Komponenten des ersten und zweiten fluiden Mediums
• 206 Zweites fluides Medium
• 207 Erstes fluides Medium
• 208 Fluidgemisches, beinhaltend Komponenten des ersten und zweiten fluiden Mediums
• 209 Bewegungsrichtung des Ventilregelkörpers
• 210 Ventilstange
• 211 Längsachse des Ventils / der Ventilstange bzw. des Ventilregelkörpers, Stellwegachse
• 212 Grundseite des Ventilregelkörper, dem Absperrkörper zugewandte Seite des Ventilregelkörpers
• 213 Ventilregelkörper
• 214 Absperrkörper
• 215 Ventilsitz
• 216 minimaler Abstand zwischen Ventilregelkörperwand und Ventilsitz
• 217 Ventil
• 218 Ventilregelkörperinnenraum
• 219 Ventilregelkörperbewandung
• 300 Ventilregelkörper
• 301 Ventilregelkörperoberseite / dem Absperrkörper gegenüberliegende Ventilregelkörperseite
• 302 Öffnung im Ventilregelkörper, z.B. als Schlitz mit abgerundeten Ecken und einer ersten Länge
• 303 Öffnung im Ventilregelkörper, z.B. als Schlitz mit abgerundeten Ecken und einer zweiten Länge
• 304 Öffnung im Ventilregelkörper, z.B. mit rundem Querschnitt
• 305 Absperrkörper
• 306 Ventilregelkörperwand, laterale Ventilregelkörperbewandung
• 307 Längsachse des Ventils / der Ventilstange bzw. des Ventilregelkörpers, Stellwegachse
• 308 Ventilregelkörperinnenraum / Hohlraum
• 309 Ventilregelkörperboden, Bodenseite
• 400 Ventilregelkörper
• 401 Ventilregelkörperoberseite / dem Absperrkörper gegenüberliegende Ventilregelkörperseite
• 402 Öffnung im Ventilregelkörper / Öffnung in Ventilregelkörperoberseite / dem Absperrkörper gegenüberliegende Ventilregelkörperseite, z.B. mit rundem Querschnitt
• 403 Öffnung im Ventilregelkörper, z.B. als rechteckiger Schlitz und einer ersten Länge
• 404 Öffnung im Ventilregelkörper, z.B. als rechteckiger Schlitz und einer zweiten Länge
• 405 Öffnung im Ventilregelkörper, z.B. als rechteckiger Schlitz und einer dritten Länge
• 406 Absperrkörper
• 407 Aufnahmeöffnung für die Aufnahme einer Ventilstange
• 408 Ventilregelkörperwand, laterale Ventilregelkörperbewandung
• 409 Längsachse des Ventils / der Ventilstange bzw. des Ventilregelkörpers, Stellwegachse
• 410 Ventilregelkörperboden, Bodenseite
• 411 Ventilregelkörperinnenraum
• 501, 502, 503, 504 Ventilgehäusegeometrie
• 505, 506 Rohrstutzen
• 507, 508, 509, 510 Gehäuseaussparung zur Aufnahme eines Ventils
• 511, 512 Rohrstutzen
• 513 T-förmiger Rohrstutzen
• 514, 515 Rohrstutzen
• 516 T-förmiger Rohrstutzen
• 517 Erste Leitung
• 518 Zweite Leitung
• 519 Erste Leitung
• 520 Zweite Leitung
• 521 Erste Leitung
• 522 Zweite Leitung
• 523 Erste Leitung
• 524 Zweite Leitung
• 525, 526, 527, 528 Ventilgehäuse bzw. Hauptelement des Ventilgehäusekörpers
• 529, 530, 531, 532 Ventilgehäuseaussparung zur Verbindung mit einer zweiten Leitung, z.B. gegenüberliegend der Gehäuseaussparung zur Aufnahme eines Ventils

The reference numerals are assigned as follows.

• 100 Device for producing fluid mixtures, in particular beverages
• 101 First line for conveying at least one fluid medium
• 102 Second line for conveying at least one fluid medium
• 103 Flow direction of a first fluid medium
• 104 flow direction of a second fluid medium
• 105 flow direction of a fluid mixture, including components of the first and second fluid medium
• 106 First fluid medium
• 107 Second fluid medium
• 108 fluid mixture comprising components of the first and second fluid medium
• 109 Direction of movement of the valve body
• 110 valve stem
• 111 Longitudinal axis of the valve / valve rod or valve regulating body, travel axis
• 112 shut-off body
• 113 Valve body
• 114 valve body wall, lateral valve body wall
• 115 Valve body upper side / valve body side opposite valve body bottom
• 116 valve seat
• 117 Minimum distance between valve body wall and valve seat
• 118 valve body bottom
• 119 valve
• 120 valve body interior
• 120 valve body interior
• 200 Device for the preparation of fluid mixtures, in particular of beverages
• 201 First line for conveying at least one fluid medium
• 202 Second line for conveying at least one fluid medium
• 203 Flow direction of a second fluid medium
• 204 Flow direction of a first fluid medium
• 205 Flow direction of a fluid mixture, including components of the first and second fluid medium
• 206 Second fluid medium
• 207 First fluid medium
• 208 fluid mixture containing components of the first and second fluid medium
• 209 Direction of movement of the valve body
• 210 valve rod
• 211 Longitudinal axis of valve / valve stem or valve body, travel axis
• 212 base of the valve body, the shut-off facing side of the valve body
• 213 Valve body
• 214 shut-off body
• 215 valve seat
• 216 Minimum distance between valve body wall and valve seat
• 217 valve
• 218 Valve body interior
• 219 valve body wall
• 300 valve control body
• 301 Valve body upper side / the valve body side opposite to the shut-off body
• 302 Opening in the valve body, eg as a slot with rounded corners and a first length
• 303 Opening in the valve body, eg as a slot with rounded corners and a second length
• 304 Opening in the valve body, eg with a round cross-section
• 305 shut-off body
• 306 Valve body wall, lateral valve body wall
• 307 Longitudinal axis of the valve / valve rod or valve regulating body, travel axis
• 308 valve body interior / cavity
• 309 Valve body bottom, bottom side
• 400 valve control body
• 401 Valve body upper side / the valve body side opposite the shut-off body
• 402 Opening in the valve regulating body / opening in valve body upper side / the valve body side opposite the shut-off body, eg with a round cross-section
• 403 Opening in the valve body, eg as a rectangular slot and a first length
• 404 Opening in the valve body, eg as a rectangular slot and a second length
• 405 Opening in the valve body, eg as a rectangular slot and a third length
• 406 shut-off body
• 407 receiving opening for receiving a valve stem
• 408 Valve body wall, lateral valve body wall
• 409 Longitudinal axis of the valve / valve rod or valve regulating body, travel axis
• 410 Valve body bottom, bottom side
• 411 valve body interior
• 501, 502, 503, 504 Valve body geometry
• 505, 506 pipe socket
• 507, 508, 509, 510 Housing recess for receiving a valve
• 511, 512 pipe socket
• 513 T-shaped pipe socket
• 514, 515 pipe socket
• 516 T-shaped pipe socket
• 517 First line
• 518 Second line
• 519 First line
• 520 Second line
• 521 First line
• 522 Second line
• 523 First line
• 524 Second line
• 525, 526, 527, 528 valve housing or main element of the valve body
• 529, 530, 531, 532 Valve housing recess for connection to a second conduit, eg opposite the housing recess for receiving a valve

Claims (13)

An apparatus (100) for producing fluid mixtures, comprising at least a first (101) and a second conduit (102) for conveying at least first (106) and second fluid media (107), and at least one valve (119) communicating with the first (101) and second line (102) and having a positionally adjustable valve control body (113),
characterized in that
the valve regulating body (113) has at least one opening, and by releasing the at least one opening, conditioned by the setting position of the valve regulating body (113), by means of the at least one opening of the valve regulating body (113) an adjustable amount of the first medium ( 106) can be transferred to the second medium (107) and simultaneously mixed into the second medium (107). Apparatus according to claim 1, characterized in that the cross section of the at least one opening of the valve regulating body (113) has one of the following shapes, circular or elliptical shape, polygonal shape, eg star shape, square or rectangular shape, or a slot shape. Device according to one of the preceding claims, characterized in that the valve regulating body (113) has a plurality of openings with the same or different cross-sectional shapes. Device according to one of the preceding claims, characterized in that the valve regulating body (113) has a cylindrical shape. Device according to one of the preceding claims, characterized in that the valve regulating body (113) has a cup shape, wherein the valve body bottom is designed as shut-off (112), which is at least one opening on the Ventilregelkörperbewandung (114), and the valve body bottom opposite valve body side (115) is open. Device according to one of the preceding claims, characterized in that the valve (119) has a diaphragm drive with positioner for setting position change of the valve regulating body. Device according to one of the preceding claims, characterized in that the valve (119) is designed as a seated seat valve or oblique seat valve. Device according to one of the preceding claims, characterized in that the valve (119) is designed as a single-seat valve or double-seat valve. Device according to one of the preceding claims, characterized in that when changing the positioning position of the valve regulating body (113), the minimum distance (117) between the valve body wall and the valve seat remains the same. Device according to one of the preceding claims, characterized in that the valve (119) is designed as a T-valve. Device according to one of the preceding claims, characterized in that the valve (119) is designed so that the characteristic, ie the dependence of the media flow from the travel or the adjustment position of the valve body (113) is linear or equal percentage. Device according to one of the preceding claims, characterized in that the device is designed so that it can be cleaned by backwashing. A method for producing fluid mixtures in which at least one first medium (106) in a first conduit (101) is mixed with at least one second medium (107) in a second conduit (102), comprising the following steps
at least one adjustment position change of the valve regulating body (113) of a valve (119) which is in communication with the first (101) and second line (102), and
Transfer of an adjustable by the adjustment position of the valve regulating body (113) amount of the first medium (106) to the second medium (107) by releasing the at least one opening of the valve regulating body (113) due to the change in position of the valve regulating body (113), and simultaneous mixing of the first medium (106) into the second medium (107).

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