DE4103638A1 - Liquid meter, esp. Woltmann meter with simplified vane wheel mounting - has protrusions from worn wheel forming axle on which vane wheels are mounted - Google Patents

Abstract

A liquid meter, esp. a Woltmann meter, has at least one vane wheel (21,22) in a housing (11) between an inlet (13) and outlet (14) and coupled to a worm wheel (23) transferring its rotation to an external metering mechanism (25). A shaft with fixed bearing journals carries the vane and worm wheels. Journal shaped axial protrusions (30,31) from both sides of the worm wheel form the shaft and have the bearing journals (19,20) injected into their free ends. At least one protrusion has a recess at a defined distance from the worm wheel which engages a central aperture in the vane wheel to form an axially fixed mounting. ADVANTAGE - The liquid meter is considerably simplified at least regarding the mounting of the vane wheel.

Description

The invention relates to a liquid meter according to the Preamble of claim 1.

Such a liquid counter has at least one in a housing between a flow inlet and egg Nem flow impeller arranged on egg ner shaft is mounted by means of the shaft set trunnion is stored in fixed bearings. In a known liquid counter there are Bearing inside a flow body. With this be Known liquid meter, the shaft consists of a Hollow tube, in the free ends of each a journal is set. There is a worm wheel on this hollow tube stored and with this worm wheel is the impeller so coupled that it turns with the worm wheel turns together. To prevent axial displacement Exercise of the impeller are counter to the worm wheel opposite end of the impeller locking ring ge provided in corresponding grooves of the hollow tube are snapped. The assembly is therefore relative complex.

The object of the invention is a liquid counter to create of the type mentioned, in which at least at least in the area of the bearing of the impeller the assembly is significantly simplified.

This object is achieved by the characterizing features of claim 1.

According to the invention, the shaft forms together with the Worm wheel a unit that is made in one piece can preferably be sprayed. At the same time with the Manufacturing the worm wheel with the shaft Bearing journal injected into the front end. The verb between the impeller and the shaft and thus also the worm wheel is done by locking means so that it only is still required the impeller on the shaft to form the conical projection until the on the impeller arranged constrictions in the ent click into the recesses on the shaft.

For reasons of simplification, the deepening on the Wel le or on the projection formed on the worm wheel a circumferential groove.

So that an improvement in the suspension of the constrictions Impeller is achieved are the free according to claim 3 Ends of the projection formed on the impeller Provide slits, whereby fingers are formed which molded locking lugs to form the constriction are.

When two impellers are in the liquid meter hen, then two are identical on the worm wheel formed projections provided on both sides the worm wheel immediately after the impellers are snapped on and snapped on.  

To improve the spring action in the area of the Schlit ze is the outer diameter of the molded on the impeller Appendage reduced.

Further advantageous refinements and improvements The invention is to be found in the further subclaims to take.

Based on the drawing, in which an embodiment of the Invention is shown, the invention as well further advantageous refinements and improvements the invention are explained and described in more detail.

It shows

Fig. 1 is a sectional view through a liquid counter,

Fig. 2 is a longitudinal sectional view of the impeller position, in an enlarged view and

Fig. 3 is a view in the direction of arrow X of Fi gur 2nd

The liquid counter shown in FIG. 1 is a Woltmann counter 10 . In a housing 11 , a passage 12 is arranged with an inlet 13 and an outlet 14 , the direction of flow according to the direction of the arrow P to run from left to right. Within the passage, two flow bodies 15 and 16 are arranged, which have a pot-like shape and in the interior a bearing 17 and 18 for bearing journals 19 and 20 tra. About the bearing journals 19 and 20 are, as will be explained in more detail below , Two impellers 21 and 22 rotatably mounted, the axis of rotation of the impellers running in the direction of flow. Between the two impellers 21 and 22 there is a worm wheel, the sen rotary movement by means of a not shown th, perpendicular to the direction of flow P from the drive shaft is transmitted to a coupling element 24 , the rotation of which is detected in a manner not shown by means of a counter device 25 . To transmit the rotation of the impellers from the drive shaft to the coupling element 24 , the housing 11 has a perpendicular to the flow direction opening 26 to which a mounting flange 27 is introduced, which supports the counter device 25 and holds. Details of this do not contribute to the understanding of the invention, so that accordingly closer details are not shown here. In this context, reference is made to the German patent application DE 39 31 960, in which more details are given and to which express reference is made.

Reference is now made to FIGS. 2 and 3.

It can be seen, the worm wheel 23, are formed on the both sides zap fenartige projections 30 and 31 being molded directly onto the end surfaces of the worm wheel 23 then both sides to a respective graduation 32 and 33 whose diameter is smaller than the outer diameter of the worm wheel 23, but larger than the outer diameter of the projection 30 and 31st The gradations 32 and 33 each have diametrically opposed flats 34 and 35 , whereby a profile is formed, the task of which is explained in more detail below.

The bearing journal 19 and 20 is injected into the free ends of the projections 30 and 31 , respectively.

In the area of the free ends of the projections 30 and 31 and accordingly also in the area of the bearing pins 19 and 20 , a circumferential groove 36 and 37 is introduced, which has a sawtooth shape, the radially extending area 38 and 39 of the free end of the projections 30 and 31 be neighboring.

The impellers 21 and 22 are connected to the end faces of the worm wheel. Each of the impellers be an outer ring 40 , on which the wings 41 are integrally formed. At a distance from the worm wheel 23 adjacent end edge of the outer ring 40 a radially extend de support wall 42 is formed which is rich in its central Be includes a side wall 42 projecting from the support the tubular extension 43rd The extension 43 projects beyond the end edge of the outer ring 40 away from the worm wheel. The tubular extension has a central inner opening 44 , the inner diameter of which speaks the outer diameter of the projection 30 or 31 ent.

The free end of each tubular extension has ra diale slots 45 through which are formed in the axial direction in front of jumping fingers 46 , on the inside of which locking lugs 47 are formed, the shape of the groove 36 and 37 being adapted. In the area of the worm wheel 23 facing surface of the support wall 42 , the support wall 42 has a step 32 corresponding recess 48 , whereby a positive connection between the worm wheel 23 and the impeller 21 and of course Lich the impeller 22 , which the impeller 21 is designed accordingly is achieved.

By interaction between the groove 36 and 37 and the locking lugs 47 an axial fixation of the wing wheel 21 and 22 on the respective pin-like before jump 30 and 31 is effected.

The unit consisting of the worm wheel 23 with the projections 30 and 31 formed on it , the two impellers 21 and 22 and the pins 19 and 20 is produced as follows:
First, the worm wheel 23 is produced with the pin-like projections 30 and 31 , the bearing pins 19 and 20 being injected into the free ends of the projections 30 and 31 . As a result, the worm wheel 23 with the projections 30 and 31 and the bearing pins 19 and 20 forms a rotary shaft. Then the impellers 21 and 22 are plugged onto the projections 30 and 31 with the journals 19 and 20 , to the extent that the steps 32 and 33 fit into the recesses 48 and the carrier wall 42 connects to the free end edges of the worm wheel 23 . In this case, the latches 47 snap into the grooves 36 and 37 and fix the two impellers 21 and 22 in the axial direction.

It goes without saying that this arrangement can be provided not only with two impellers, but also when using only one impeller, in which case the projection 31 can be shortened, for example, since it only has to serve to hold the pin 20 .

The invention is described using a Woltmann counter ben, in which the axis of rotation of the impellers in flow direction runs. Of course it is also possible Lich that the same fixation of an impeller or another, winged and through a stream rotation can be applied, if the flow direction is perpendicular to the axis of rotation of the wheel.

Claims (7)

1. Liquid meter, in particular Woltmann meter, with at least one in a housing ( 11 ) between egg nem inlet ( 13 ) and an outlet ( 14 ) arranged Flü gelrad ( 21 , 22 ), which is coupled with a worm wheel ( 23 ) which the rotation of the at least one wing wheel ( 21 , 22 ) is transmitted to a counter device ( 25 ) located outside the housing ( 11 ), and with one at both ends with one each in a fixed bearing ( 17 , 18 ) in the housing ( 11 ) bearing journal provided shaft which carries the at least one impeller ( 21 , 22 ) and the worm wheel ( 23 ), characterized in that to form the shaft on the worm wheel ( 23 ) on both sides in the axial direction duri fende pin-like projections ( 30 , 31 ) are integrally formed, in the free ends of the bearing pins ( 19 , 20 ) are injected in that at least one of the pin-like projections ( 30 ) at a certain distance from the worm wheel ( 23 ) on The outer circumferential recess ( 36 , 37 ) and the impeller ( 21 , 22 ) have a constriction ( 47 ) having a central inner opening ( 44 ) which are assigned to one another in such a way that they engage in one another in the assembled state and thus provide a form-fitting axial fixation form between the impeller ( 21 , 22 ) and the associated projection ( 30 ). 2. Liquid counter according to claim 1, characterized in that the recess ( 36 ) is a circumferential groove. 3. Liquid meter according to one of claims 1 and 2, characterized in that the free end of each tubular extension ( 43 ) of each impeller ( 21 , 22 ) has axial slots ( 45 ) so that the free of the tubular extensions fingers ( 46 ) are formed, on which locking lugs ( 47 ) are formed to form the constriction. 4. Liquid meter with two impellers ( 21 , 22 ), according to one of the preceding claims, characterized in that the projections ( 30 , 31 ) are formed on both sides. 5. Liquid meter according to one of the preceding claims, characterized in that on each wing wheel ( 21 , 22 ) a one-sided axially projecting tubular Rohrmör extension ( 43 ) is formed. 6. Liquid meter according to one of the preceding claims, characterized in that the free ends of the tubular extensions ( 43 ) in the region of the slots ( 45 ) have a reduced diameter to improve the spring action. 7. Liquid meter according to one of the preceding claims, characterized in that on at least one of the two end faces of the worm wheel ( 23 ) an area ( 32 , 33 ) is formed with a profile shape, which is a correspondingly shaped area ( 48 ) on the impeller ( 21 ) corresponds so that a positive, non-rotatable connection of the worm wheel ( 23 ) with the impeller ( 21 ) is formed.