DE4026692A1 - Flowmeter using inductive pick=up assigned to rotor - of plastics material with metal layer or coating - Google Patents

Abstract

The rotor (22) is installed in the housing (16) through which the fluid flows. The rotation pick-up is installed outside the flow chamber (46). The rotor is of plastics material with a set of blades (24) and is provided with a metal inlay or coating (28) in order to activate the inductive pick-up in pulsed fashion. The rotor and axle (26) are rigidly bonded. A flow shutter (36) is assigned to the inlet opening (18) of the housing. This shutter is variable by an adjuster operable from outside. The shutter can be in the form of a bowed strip installed between the rotor and the cylindrical flow chamber. ADVANTAGE - Compact yet responds to relatively low flow rate, i.e. highly sensitive. Low wear.

Description

The invention relates to a flow measuring device with egg pipe system leading into a gas and / or liquid stem can be introduced, through which the fluid to be monitored flows th housing, one arranged in the housing, the flow exposed rotor and a rotary associated with the rotor motion sensor.

In such devices, for example as a so-called. Use a monitor or indicator or as a pure measuring device the speed of the rotor is proportional to the flow rate of the fluid in question. For investigation the respective rotor speed is generally generates a corresponding pulse train that a nachge switched evaluation unit is supplied.  

Magnetically controlled Hall- Sensors used. Because of the vorese in the flow space The magnet in question is opposite the device in question ferritic contamination relatively sensitive, so that changes in how the device works can result. The calibration of such devices is therefore problematic. Furthermore, the proposed measures increase assumed the total weight of the rotor. Even with devices, the one that responds to a metallic rotor have, the rotor generally has such a high Weight that a stable and reliable function only is achieved at relatively high flow rates.

Larger rotor blades can be used for one speak reduce the required flow rate, this however, inevitably leads to excessive, undesirable Ge device dimensions. In addition, the camp will be loaded constant rotor weight additionally increased.

Flow measuring devices are also known in which the rotor blades are optically scanned. With this before lighter rotors can be used however, they are not clouded or ge for monitoring colored liquids.

After in the known devices in general rigid axis is provided on which the rotor is rotatable stored, wear can also occur over time of the rotor against the axis occur, causing the radio the ability of the device is in turn impaired and a respective adjustment must be carried out more frequently.

The aim of the invention is to provide a flow measuring device to create the kind mentioned at the simple and compact design despite the small rotor dimensions responds at relatively small flow rates and ent has high sensitivity, and low sensitivity rem wear without being affected by in particular ferritic impurities ensure high functional reliability guaranteed and thus easily adjustable. Furthermore, any adjustment that may be required to be carried out accordingly sensitively.

The object is achieved in that the Rotor is made of plastic and at least partially with a metal layer or a metal jacket and that the rotary motion sensor is an inductive one Rotary motion sensor is.

Due to this design, not only the rotor weight be kept extremely low due to the metal coating tion of the plastic rotor is also despite the Plastic material also has an inductive rotary motion possible, so that due to missing magnets a loading impairment of functional safety due to ferritic Soiling is excluded in any case. As a result the extremely light rotor design is the high response sensitivity especially without an enlarged rotor leaves or the like reached. With the reduced Ro gate weight are also a possible wear in the warehouse rich and reduced the frictional forces, so that already at minimal flow rates, stable revs be enough.

The rotor preferably has a plurality, at least in the least substantial radial wing, at least the wing  of the rotor at least partially with a metal layer or metal casing are provided. With such, me metal-coated or a metal jacket When the rotor is rotating, wings are impulsive Acting on the inductive rotary motion recording mers, for example an inductive proximity switch or the like.

The metal layer should have the highest possible permeability have and preferably consists of nickel.

The permeabi should also be used in the case of metal sheathing lity in turn should be as large as possible, with such a me tallum sheathing expediently consist of stainless steel can and preferably by on the wing, for example on the free ends of which sleeves are attached.

To achieve a sufficiently high running stability stands the axis of the rotatably mounted rotor in the housing expediently made of metal or ceramic.

According to a particularly advantageous embodiment variant of the Invention is provided that the rotor and axis at least least non-rotatable, preferably also fixed in the axial direction Form composite and the axle ends in preferably made of art fabric existing bearings of the housing are added.

This is a possible wear between plastic rotor and metal axis excluded from the outset. After which only polished axle heads in plastic bearings are taken is the friction and thus a possible one Overall wear reduced to a minimum.  

Preferably, the entire housing is made of plastic, so that the bearings through in the relevant housing inner walls incorporated recordings can be formed.

It advantageously has one of the outflow openings opposite side of the housing provided on flow opening a smaller cross section than that zende pipe system, so that the inflow characteristic is determined by the inflow opening.

Are the housing or its inlet and outlet openings via rotatable with respect to the opening axes, preferably Adap fixable by means of plug-in brackets or the like The device can be connected to the pipe system If necessary, it can still be rotated even after installation and can therefore be in the best working position ju be bulled.

An extremely sensitive adjustment of the flow measurement Direction is possible according to the invention in that the one flow opening assigned an adjustable flow orifice through which the opening cross section can be changed. By covering the inflow accordingly opening is the most simple and precise way ever calibration possible. The flow aperture gives the Inflow opening free, so it is the impingement on the rotor flow rate 100%. The flow orifice is in front preferably continuously, d. H. continuously adjustable.

A structurally particularly simple and reliable design tion is characterized in that the flow aperture arranged in the rotor receiving flow space and adjusted via an externally operable adjusting member is cash.  

It is advantageous here if the flow orifice as two the rotor and inner peripheral wall of the cylindrical flow mung space arranged curved strips formed is about an axis coinciding with the rotor axis is rotatable.

The flow orifice can be a partial circle, preferably be a semicircular curved strip. However, it is also possible, the flow orifice through a circular ge enclosed stripes with two corresponding respectively to form other opposite openings.

The flow orifice is preferably on one from the outside accessible to coincide with the rotor axis Rotatable, disc-shaped or ring-shaped adjusting element arranged. A scale can expediently be used here and at least one marking can be provided on the basis of which the respective position of the flow orifice from the outside is recognizable.

A particularly with regard to an inexpensive Her position and easy maintenance are particularly advantageous The harsh version is that the washers like, preferably removable adjusting the housing closes like a lid and opens the flow chamber one end bounded.

To turn on the rotor, for example, with the cover removed Finally, it is easy to remove the axis Expediently provided that one of the two camps in preferably plastic lid-like Ver actuator and the other bearing in the bottom of a preferably Pot-shaped housing also made of plastic  is partially arranged. Again, the bearings can be like therefore as incorporated into the relevant plastic walls tete recordings be formed.

The lid-like adjusting element can be inserted into the pot-like one Protruding part of the housing opposite its inner circumference have wall-sealed cylindrical extension the inside front side expediently be appropriate warehouse is provided. On this cylindrical one The extension can extend towards the outside Connect the cut over which the adjusting element is preferred as be by means of a ring surrounding the head portion axially fixable with respect to the pot-like housing part. The flow orifice is an axial extension of the cylin vorese extension on its radially outer edge hen.

Further advantageous embodiment variants of the invention are specified in the subclaims.

The invention is based on execution examples with reference to the drawing tert; in this shows:

Fig. 1 is a schematic sectional view of a he inventive flowmeter,

Fig. 2 shows a section along line AA in Fig. 1,

Fig. 3 is a side view of the flow measuring device with inserted inductive rotary motion on participants and with adapters for connection to the pipe system,

Fig. 4 shows a variant of a rotor with stainless steel sleeves placed on the wing ends, and

Fig. 5 shows a schematic representation of an electronic cal, the rotary motion sensor having evaluation unit which can be plugged onto the housing receiving the rotor.

In Figs. 1 to 3 a flow measurement device 10 is shown having a housing 16, the flow orifice an opening into a cylindricity rule flow chamber 46 intake opening 18 and a leading from the flow chamber 46 to the outside from 20 possesses.

For connection to a gas and / or liquid-carrying line system, the inflow and outflow openings 18 , 20 are assigned adapters 12 , 14 (cf. FIG. 3).

The fluid to be monitored flows through the housing 16 or its cylindrical flow space 46 in the direction of the arrows F 1 (inlet) and F 2 (outlet). This fluid flow is exposed to a rotor 22 which is arranged in the cylindrical flow space 46 and is rotatably mounted in the housing.

This rotor 22 has a plurality of radial vanes 24 arranged on a hub 58 , which are integrally formed with the hub 58 and, while leaving a small distance, extend into the region of the inner peripheral wall 48 of the cylindrical flow space 46 .

The diameter of the inflow and outflow openings 18 , 20 is slightly smaller than the radial length of the vanes 24 , these openings 18 , 20 being essentially between the hub 58 and the upper section of the inner circumferential wall 48 on both sides of the right one perpendicular to the plane of the drawing Axis 16 rotatable rotor 22 are arranged.

Here, the rotor 22 exposed to the flow rotates in the direction of arrow F 3 .

The rotor 22 is made of plastic and has a metal layer 28 , which has a large permeability and preferably consists of nickel. In the embodiment shown in FIGS. 1 to 3, both the vanes 24 and the hub 58 carrying the vanes are metal-coated. In principle, however, it is also conceivable to provide only the wings 24 and in particular only their free ends with a metal layer or a metal sheath (cf. FIG. 4).

The metal-coated plastic rotor 22 is associated with an inductive rotary motion sensor 30 arranged outside the flow space 46 (see FIG. 3). To accommodate the sensor head of this inductive rotary motion sensor 30 , which can be, for example, an inductive proximity switch, the housing 16 , which is made of plastic or another material with a comparatively small permeability, has an external recess 44 which extends radially toward the rotor axis 26 extends.

While the metal coated hub 58 as well as the coated Metal working vanes 24 of the rotor 22 best plastic hen, the 58 hindurchtre tends through an opening of the hub and this supporting axis 26 made of metal or ceramic.

Here, the plastic hub 58 and the plastic wing 24 comprising rotor 22 and the metal or ceramic axis 26 form a firm bond, while the polished axle ends are rotatably received in plastic bearings 32 , 34 of the housing 16 .

To form the axis 26 receiving plastic bearings 32 , 34 are in two opposite housing inner walls of the plastic housing 16 ent speaking recordings incorporated (see. Fig. 2).

The provided on one of the outflow opening 20 side of the housing 16 inflow opening 18 has a cross section that is smaller than the cross section of the adjacent pipe system, so that the inflow characteristic is determined by this inflow opening 18 .

As a result of the metal-coated plastic blades 24 of the rotor 22 , the inductive rotary motion sensor 30 is acted upon in a pulsed manner. This inductive pulse pickup 30 is connected via a line 56 to an evaluation circuit (not shown).

The device can be used, for example, as a watchdog or indicator or measuring device can be used. In the case of a guard can, for example, two independently of one another adjustable relay contacts for a minimum and maximum value be provided while an indicator in particular special one additional, for example by a diode chain realized volume trend display can include. At a measuring device can display this as an accurate digital display be educated. A bat Terieadapter be made available that an An allows for example at up to eight measuring points.  

The inductive rotary motion sensor 30 attached to the housing 16 by means of a nut 54 can comprise an integrated pulse processing circuit for generating exact square-wave signals. Such pulse processing can in principle also take place in the downstream evaluation unit.

The adapters 12 , 14 (see FIG. 3) intended for connecting the housing 16 or the inflow and outflow openings 18 , 20 to the adjacent line system are rotatable about their longitudinal axes and can preferably be fixed with respect to the housing 16 by means of pluggable brackets. The device can also be rotated after installation and can be easily adjusted to the best working position.

In addition, the inflow opening 18 is according to the invention associated with a continuously adjustable flow aperture 36 through which the opening cross section of the inflow opening is variable 18th

This flow orifice 36 is arranged within the flow space 46 which receives the rotor 22 and the axis 26 .

In the embodiment shown in FIGS. 1-3, a strip-shaped flow orifice 36 is provided, which is bent semicircularly about an axis B coinciding with the rotor axis (see FIG. 2) and is arranged between the rotor 22 and inner circumferential wall 48 of the cylindrical flow space 46 .

The measured in the direction of the rotor axis axial width C (see. Fig. 2) of the strip-shaped flow orifice 36 is larger than the diameter of the inflow opening 18 and substantially the same size as the axial length of the rotor 22 , which is omitted in Fig. 2 .

With the exception of each of the inflow opening opposite portion 22 measured length is 18, the strip-shaped part-circular arcuate flow aperture 36 over its entire in the circumferential direction of the rotor away on the inner peripheral wall 48 of the cylindrical cavity 46 at.

The strip-shaped flow orifice 36 can be rotated by means of an adjuster 38 accessible from the outside about the axis B coinciding with the ro tor axis (cf. FIG. 2).

The flow orifice 36 is provided in an axial extension on the ra dial outer edge of a cylindrical extension 16 'of the rotatable about the axis B disk-like adjusting member 38 , which projects into the opening through the inner peripheral wall 48 be a pot-like housing part 16 ' and opposite the inner peripheral wall 48th is sealed by means of an annular seal 40 .

To the outside adjoins the cylindrical extension 16 '' an enlarged head portion 16 '''of the disk-like gene adjusting member 38 , via which the adjusting member 38 by means of a head portion 16 ''' surrounding ring 42 with respect to the pot-like housing part 16 'axially fixed is. For this purpose, the outer ring 42 and the expanded head portion 16 '''interlocking radial projections or ring flanges 60 , 62 .

The expanded head portion 16 ''', the closing cylindrical extension 16 ''and the stripe-shaped, by this around the axis B semicircular curved flow orifice 36 are formed as a one-piece part made of plastic or another material with a comparably small permeability . Likewise, there is the pot-like, the bottom 50 housing part 16 'made of plastic or a comparable properties on pointing material.

The flow space 46 is thus limited by the inner peripheral surface 48 and the bottom 50 of the pot-like housing part 16 'and the bottom 50 opposite end of the cylindrical extension 16 ''of the disk-like, cover-shaped adjusting member 38 . Here, the bearings 32 , 34 for the axis 26 of the rotor 22 on the one hand in the plastic extension 16 '' and on the other hand the plastic base 50 , which form end walls of the housing 16 , incorporated in the form of recesses.

Outside on the rotatable about the axis B disk-like Ver actuator 38 and the widened head portion 16 '''of this organ surrounding the outer ring 42, a scale and at least one mark can be provided, so that it can be seen from the outside what position the with the Ver actuator 38th one-piece flow orifice 36 takes one each.

The rotor 22 shown in FIG. 4, instead of Me metal coating that on the outer free ends of the wings 24 plugged Edelstahlhülen 28 '. This Me tallumantelung for the free wing ends forming stainless steel sleeves 28 'extend parallel to the axis 26 of the rotor 22 and each have an axis 26 facing th longitudinal slot 66 , which allows the insertion of the sleeves on the wing ends.

Both the hub 58 and the wing 24 of the rotor 22 be in turn made of plastic.

While in the Fig. Ausführungsbei shown 1-3 of the rotary motion pickup play 30 is preferably releasably attached to the rotor 22 receiving housing was fixed 16, the rotational motion sensor 30 'in the embodiment 5 of an electronic evaluation unit 63 is shown in FIG. Assigned based on the housing 16 accommodating the rotor can be plugged on.

Here, the rotary motion sensor 30 'is accommodated in a front jumping housing section 64 of the evaluation unit 63 receiving housing 65 , which is complementary to the recess 44 of the housing 16 and is received in this recess 44 when the evaluation unit 63 is plugged onto the housing 16 . In order to enable the evaluation unit 63 to be plugged onto the housing 16 in this way, the recess 44 is open both upwards and laterally towards the evaluation unit 63 .

Since the inductive rotary motion sensor 30 'is arranged in the plug-in housing section 64 of the electronic evaluation unit 63 , no electrical connections between the housing 16 accommodating the rotor and the evaluation unit 63 are required.

The evaluation unit 63 which can be plugged onto the housing 16 in the direction of the arrows has a digital display 68 and keys 70 for entering respective minimum and maximum values. A quantity trend display 72 is also provided.

In the flow measuring device described, the one flowing liquid through a defined dimension  having inflow bore directed to the rotor. The light, in the present case ten-bladed plastic rotor is provided with a metal layer or coating, so that the speed of the rotor from an inductive transducer can be detected without reaction. The speed of the The rotor is directly proportional to the flow rate.

Since the device according to the invention without a magnetic interior parts and optical sensors is a possible loading impairment of functional safety due to ferritic be contaminated or cloudy liquids from the outset closed.

The rotor forms a firm bond with the axis, the polished heads each in a bowl-shaped art are stored in the housing. That kind of La the reliable and stable rotation of the Rotors even with the smallest flow rates and leads to together with the low rotor weight and correspondingly reduced graced friction to a durable, wear-free Function.

Since there are no dead spaces in the flow space, very good linearity between frequency and volume given electricity.

Due to the relatively high encoder frequency, the measurement is short cycle time and favorable gate times for each Frequency counter achievable.

Reference symbol list

10 flow measuring device
12 rotatable adapters
14 rotatable adapter
16 housing
16 ' pot-like housing part
16 ″ cylindrical extension
16 ″ ′ extended head section
18 inflow opening
20 outflow opening
22 rotor
24 wings
26 axis
28 metal coating
28 ′ metal casing
30 inductive rotary motion sensors
30 ' inductive rotary motion sensor
32 plastic bearings
34 plastic bearings
36 adjustable flow orifice
38 adjusting element
40 ring seal
42 outer ring
44 recess
46 flow space
48 inner circumferential wall
50 floor
52 rand
54 mother
56 line
58 hub
60 radial projection
62 radial projection
63 electronic evaluation unit
64 projecting housing section
65 housing
66 longitudinal slot
68 digital display
70 keys
72 Quantity trend display
AA cutting line
B axis
C width
F 1 arrow
F 2 arrow
F 3 arrow

Claims (26)

1. flow measuring device with a gas and / or liquid leading line system insertable, flowed through the fluid to be monitored housing ( 16 ), a housing ( 16 ) arranged, the flow out rotor ( 22 ) and one assigned to the rotor ( 22 ) Rotary motion sensor ( 30 ), characterized in that the rotor ( 22 ) consists of plastic and is at least partially provided with a metal layer ( 28 ) or a metal casing ( 28 ′), and that the rotary motion sensor is an inductive rotary motion sensor. Aufneh mer ( 30 , 30 ') is. 2. Flow measuring device according to claim 1, characterized in that the rotor ( 22 ) has a plurality of at least substantially radial wing ( 24 ) Chen, and that at least the wing ( 24 ) of the rotor ( 22 ) at least partially with a metal layer ( 28 ) or metal casing ( 28 ') are provided. 3. Flow measuring device according to one of the preceding claims, characterized in that the metal layer ( 28 ) has a large permeability and preferably consists of nickel. 4. Flow measuring device according to one of the preceding claims, characterized in that the metal casing ( 28 ') has a large permeability and preferably consists of stainless steel. 5. Flow measuring device according to one of claims 2 to 4, characterized in that the metal casing by sleeves ( 28 ') are formed on the wings ( 24 ), preferably on their free ends. 6. Flow measuring device according to one of the preceding claims, characterized in that the inductive rotary movement sensor ( 30 , 30 ') driven by the rotor ( 22 ) on the circumference of the rotor ( 22 ) and preferably outside of the flow chamber ( 46 ) of the Rotor ( 22 ) receiving hous ses ( 16 ) is arranged. 7. Flow measuring device according to one of the preceding claims, characterized in that the best existing, the rotor ( 22 ) receiving housing ( 16 ) made of plastic or another material with a comparatively small permeability, an outer, preferably radially extending towards the rotor axis recess ( 44 ) has at least the sensor head of the outside of the housing ( 16 ) arranged rotary motion sensor ( 30 , 30 '). 8. Flow measuring device according to one of the preceding claims, characterized in that the rotary motion sensor ( 30 ) on the rotor ( 22 ) receiving housing ( 16 ) is preferably releasably attached. 9. Flow measuring device according to one of the preceding claims, characterized in that the rotary motion sensor ( 30 ') is associated with an electronic evaluation unit's ( 63 ) which can be attached to the rotor ( 22 ) accommodating housing ( 16 ) or attached that the attached to the evaluation unit ( 63 ) rotary motion sensor ( 30 ') when the evaluation unit ( 63 ) is inserted or plugged into the recess ( 44 ) provided in the housing ( 16 ). 10. Flow measuring device according to claim 10, characterized in that the rotary motion sensor ( 30 ') is housed in a front bouncing housing section ( 64 ) of the Auswertein unit ( 63 ) receiving housing ( 65 ), and that the projecting housing section ( 64 ) is complementary to this receiving recess ( 44 ) of the housing ( 16 ). 11. Flow measuring device according to one of the preceding claims, characterized in that the axis ( 26 ) of the rotatable in the housing ( 16 ) mounted rotor ( 22 ) consists of metal or ceramic. 12. Flow measuring device according to one of the preceding claims, characterized in that the rotor ( 22 ) and axis ( 26 ) form an at least torsional composite and the axle ends are preferably made of plastic bearings ( 32 , 34 ) of the housing ( 16 ). 13. Flow measuring device according to claim 12, characterized in that the housing ( 16 ) consists of plastic and that the bearings ( 32 , 34 ) are formed by recesses incorporated into the relevant housing inner walls. 14. Flow measuring device according to one of the preceding claims, characterized in that the on one of the outflow opening ( 20 ) opposite side of the housing ( 16 ) provided inflow opening ( 18 ) has a smaller cross section than the adjacent line system. 15. Flow measuring device according to one of the preceding claims, characterized in that the housing ( 16 ) or its inflow and outflow openings ( 18 , 20 ) can be rotated with respect to the opening axes, preferably by means of a plug-in bracket or the same fixable adapter ( 12 , 14 ) can be connected to the line system. 16. Flow measuring device in particular according to one of the preceding claims, characterized in that the inflow opening ( 18 ) is associated with an adjustable flow aperture ( 36 ) through which the opening cross section can be changed. 17. Flow measuring device according to claim 16, characterized in that the flow orifice ( 36 ) in the rotor ( 22 ) accommodating flow space ( 46 ) is arranged and adjustable via an externally actuated adjusting member ( 38 ). 18. Flow measuring device according to claim 16 or 17, characterized in that the flow orifice ( 36 ) as between the rotor ( 22 ) and the inner peripheral wall ( 48 ) of the cylindrical flow chamber ( 46 ) arranged curved strip is formed, which coincides with an axis coinciding with the rotor axis (B) is rotatable. 19. Flow measuring device according to one of claims 16 to 18, characterized in that the flow orifice ( 36 ) is a part-circular, before preferably semicircular curved strip. 20. Flow measuring device according to one of claims 16 to 18, characterized in that the flow orifice ( 36 ) is a circular closed strip with two mutually opposite openings. 21. Flow measuring device according to one of claims 16 to 20, characterized in that the measured in the direction of the rotor axis axial width (C) of the strip-shaped flow orifice ( 36 ) larger than the diameter of the inflow opening ( 18 ) and preferably at least substantially the same size as that axial length of the rotor ( 22 ). 22. Flow measuring device according to one of the preceding claims, characterized in that the strip-shaped, part-circular or circular-shaped flow orifice ( 36 ) bears over its entire length measured in the circumferential direction of the rotor on the inner circumferential wall ( 48 ) of the cylindrical flow space ( 46 ) . 23. Flow measuring device according to one of the preceding claims, characterized in that the flow orifice ( 36 ) is arranged on an externally accessible, around the axis coinciding with the rotor axis (B) rotatable, disk-shaped or annular adjusting member ( 38 ). 24. Flow measuring device according to one of the preceding claims, characterized in that the disc-like, preferably removable Ver adjusting member ( 38 ) closes the housing ( 16 ) like a lid and limits the flow space ( 46 ) on one end face. 25. Flow measuring device according to claim 24, characterized in that one ( 32 ) of the two bearings ( 32 , 34 ) preferably in the existing plastic cover-like Ver actuator ( 38 ) and the other bearing ( 34 ) in the bottom ( 50 ) preferably also made of plastic pot-like housing part ( 16 ') is arranged. 26. Flow measuring device according to claim 25, characterized in that the cover-like adjusting member ( 38 ) in the pot-like housing part ( 16 ') projecting, with respect to its inner peripheral wall ( 48 ) sealed cylindri's extension ( 16 ''), the tion in axial extension at the radially outer edge carries the flow orifice ( 36 ) lying in the flow space ( 46 ) and to which an enlarged head section ( 18 ′ ′ ′) adjoins to the outside, via which the adjusting mechanism ( 38 ) preferably by means of a head section ( 16 ′) '') Surrounding ring ( 42 ) with respect to the housing part ( 16 ') can be axially fixed.