DE3732703A1 - Compound water meter - Google Patents

Abstract

Published without abstract.

Description

The invention relates to a compound water meter, consisting from a secondary meter in a secondary line for the Detection of the smaller flows and one in one Main counter seated for recording the larger flows according to the preamble of claim 1.

Such composite water meters are known for example from DE-OS 34 29 007 and US-PS 32 03 238. By the Combination of main counter and secondary counter becomes a wide one larger measuring range covered with greater accuracy than this would be possible with individual counters. The switching valve insert has the task of switching between Main and secondary counters ensure that each of the two calibrated individual counter within its measuring range limits can become active. The opening and closing processes of the Switch valve insert must therefore at the right time and done with great speed. Otherwise work the individual counters also outside their measuring range limits and Incorrect measurements are the inevitable result.

In the above as state of the art Compound water meters are the main meters as Woltmann meters educated. The meter housing is in with one Provide housing extension extending flow direction, the as a receiving chamber for the switching valve insert of the Switchover valve is used. For this, before installing the Insert the switching valve insert through an opening in the Main meter housing inserted into this, in the side to Counter output inserted into the housing extension and with at least one ring flange in a ring guide Housing extension can be attached sealed.

In this known construction, the Need a separate one for the switching valve insert  Manufacture housing and flanged to the meter housing. The disadvantage, however, is that the processing of the Ring guide that receives the switching valve insert, relative is difficult since it is in the output side Housing extension sits and a larger diameter has as the respective nominal diameter passage of the two Connection flanges of the housing. It becomes even more difficult Machining if in a housing with a small nominal size Switch valve insert for a larger nominal size group to be installed, for example a switching valve insert Nominal size 100 mm in a housing nominal size 50 mm.

It is even more difficult than installing the switching valve insert often its expansion. After a long installation time in the pipe network the switching valve insert because of the inevitable Deposits are often very firm in their ring guides and can therefore on site either only with great effort or even cannot be dismantled again.

Another disadvantage of the prior art construction occurs checking whether the switching valve insert in the housing is tight is attached. It must be absolutely tight and without Possibility of flow around the water to be measured in its Installation position, otherwise measurement errors are inevitable. The Test measures for this require a not insignificant Effort and increase the manufacturing costs.

The present invention is based on the object Compound water meter of the type mentioned above train that simplifies manufacturing, the Manufacturing costs reduced, testing simplified and accelerated and the assembly and disassembly effort can be significantly reduced.

This problem is solved by the characteristic features of claim 1.  

Because the switching valve insert is no longer in the Main meter housing sits, but directly on the Main meter measuring insert is coupled, do not apply initially all previous mechanical processing inside of the housing. The housing is thus easier and cheaper. The switching valve insert is now comfortable outside the meter housing on the rear extension attached to the measuring insert. The tightness of the Connection between measuring insert and switching valve insert can be checked easily. It is enough to combine To place measuring insert and switching valve insert vertically and fill with water.

The main advantage of the present invention, however, lies in that the combination of measuring insert and Switch valve insert for itself, d. H. without the associated Meter housing, can be calibrated or certified. she can therefore also stored without housing and to the place of use can be transported, which means additional space and cost savings can be achieved.

According to a development of the invention, the combination depends from main meter measuring insert and switching valve insert on the Underside of the housing cover. Assembly and disassembly of the This makes the combination in the meter housing significant simplified.

According to a particular embodiment of the invention Housing opening and cover an elongated, the dimensions form corresponding to the combination. The free on the housing cover hanging combination of measuring insert and switching valve insert can be lifted into or out of the meter housing this can be taken out.

To unwanted vibrations of the combination of measuring insert  and to avoid switching valve insert, the measuring insert, its tubular extension or the switching valve insert stiffened by means of at least one support rib and against the Suspension on the housing cover or against the housing cover supported itself. This also results in the Making plastic a very stable body that without further supporting devices from the flowing Water flow can not be adversely affected.

According to one embodiment of the invention is for sealing an O-ring between the housing cover and the housing opening intended.

According to an advantageous development of the invention Area of the closure body around an axially open ring channel put the switching valve insert around, its annular Opening with the edge of the closure body is a throttle forms, the annular channel to the inlet opening from the Branch line tightly connected to the main meter housing is. This construction allows the water flow through pull the sub-counter in addition to the sudden To support opening and closing of the closure body, as described in DE-PS 30 35 047.

Here too, the seal between the mouth and Ring channel advantageously by means of an O-ring.

Some importance comes from the only sealing point between that Counter housing and the measuring insert, which at the solution according to the invention is still present. According to one In the first embodiment, an O-ring is used here.

According to a second embodiment, the measuring insert is with With the help of a round double lip seal with a radial after inside and a radially flexible lip sealed. The flexible lips bridge as a result of her  Agility and elasticity the distance between the two parts to be sealed against each other very easily and the same Manufacturing tolerances. For sealing within a Normal counter is a lip seal with only one after inside known flexible lip. Since you've been with for years Composite water meters also the return flow of water, prevent, for example, a pipe break in front of the meter wants, this can be done in the present embodiment by the second lip that can be bent outwards.

This is supported by the fact that the elastic Lips of the lip seal in the installed position a preload receive. This seal is created by the water pressure on the Lips considerably strengthened.

According to a development of the invention, the Shift valve insert has a round guide ring and is in at least one fitting of the measuring insert or its tubular extension guided, sealed and centrically held. Here he is advantageously by means of Flange ring and screws connected to the measuring insert is equipped with a corresponding counterpart. These Embodiment is particularly in accordance with switching valve inserts DE-PS 31 24 371 displayed.

Based on the drawing, the invention in the form of Embodiments are explained in more detail. Show it

Fig. 1 shows a longitudinal section through a first embodiment of a composite water meter,

Fig. 2 is a partially sectioned plan view of the compound water meter of Fig. 1 and

Fig. 3 shows a longitudinal section through a second embodiment of a composite water meter.

Fig. 1 shows a cross section through a first embodiment of a main meter housing 1 with main counter 2.

The main meter housing 1 has a connecting flange 11 , 12 on the left and right. An upper, elongated housing opening 17 is closed with a housing cover 8 , an O-ring 81 being used for sealing and a series of screws 80 being used for fastening.

On the underside of the cover 8 , the actual measuring insert 5 , consisting of a Woltmann counter 53 , is suspended by means of radial struts 52 and has an impeller 54 via a head section 22 which is screwed onto the cover 8 and supporting ribs 23 . The speed of the impeller 54 is transmitted to the measuring mechanism 21 with the aid of a shaft 24 and is displayed in the main counter 2 . The counter 2 is covered with a cover 25 .

The measuring insert 5 or its tubular measuring chamber 50 is inserted tightly into the meter housing 1 with the aid of an O-ring 55 .

The measuring chamber 50 of the measuring insert 5 has at its rear end a tubular extension 51 into which a complete measuring valve insert 6 is tightly inserted. The measuring valve insert 6 corresponds to the construction of DE-PS 30 35 047. It comprises a central sliding pin 60 , on which a closure body 61 is pressed under the action of a spring 62 onto the valve seat 63 , the seal being produced with the aid of O-rings 65 becomes. A central hub body 64 together with the closure body 61 ensures the function of the switching valve insert 6 .

An axially open annular channel 66 is placed around the switching valve insert 6 . This is connected via a connecting piece 67 with an O-ring seal 69 to the inlet opening 14 from the secondary line 3 . The annular space 66 forms, together with the outer circumference of the closure body 61, a throttle point 68 through which the bypass flows and which supports the sudden raising or lowering of the closure body 61 when the predetermined pressure differences in front of and behind the switching valve insert 6 are exceeded or fallen below.

As the drawing shows, the combination of measuring insert 5 and switching valve insert 6 hangs freely under the housing cover 8 and can be inserted into and removed from the housing 1 without problems, as it were, like a lift. The housing 1 itself only has to be machined in the area of the seals 55 , 69 and 81 .

The combination of measuring insert 5 and switching valve insert 6 forms, in terms of flow and measuring technology, an independent unit which can be calibrated or certified and used in practically any shape of housing.

FIG. 2 shows a top view, partly in section, of the composite meter of FIG. 1. The main meter housing 1 with the housing cover 8 , main water meter 2 and cover 25 and the connecting flanges 11 , 12 can be seen . The cover 8 is screwed onto the housing 1 with the aid of the screws 80 and thus seals the housing cutout 16 , the size of which is adapted to the size of the combination of measuring insert 5 and switching valve insert 6 .

A portion of the water to be measured is discharged as a sidestream via an outlet opening 13 from the main meter housing 1 and on the secondary line 3 with secondary meter 4, check valve 30 and inlet 14 the annular channel is introduced into the meter housing 1 and 66 again.

A longitudinal section through a further embodiment of a composite water meter using a switching valve insert according to DE-PS 31 34 371 is shown in FIG. 3. Here, the measuring insert 5 has on its output side Meßkammerende 50 or the provided therein tubular extension 51 is a mounting device 9 for the switch valve insert 7 . This is tightly connected to the measuring insert 5 by means of a flange ring 92 , screws 93 and a sealing ring 94 .

For the sealing between the measuring insert 5 and the housing interior 10 , a circular double lip seal 56 is installed here as a sealing link between the transverse housing wall 15 and the measuring insert inlet 52 . This has a radially inward and a radially outward sealing lip 57 , 58 and is made of rubber or a rubber-like material.

In this embodiment too, the bypass branched off at the outlet opening 13 is introduced again into the housing 1 at the inlet opening 14 . However, this lies behind the switching valve insert 7 and is therefore not used to move the actual closure body 71 .

The production of the combination of measuring insert 5 and switching valve insert 6 is equally simple in both exemplary embodiments. Usually, all housing parts, the tubular extension, the attachment device, etc. are molded as far as possible in one piece from plastic, so that only low additional material costs arise. These are compensated for by the fact that machining the housing to seal the switching valve insert is completely eliminated. Measuring insert 5 and switching valve insert 6 , 7 lie in a straight line one behind the other, so that the flow can flow without obstacles, as a result of which the pressure loss remains low. This advantage is particularly noticeable in the nominal load of the compound water meter. In addition, the measuring insert 5 with its tubular extension 51 can also be used without a switching valve insert 6 , for example as an exchange element in existing composite water meters.

The opening process in the compound water meter takes place as follows: When the switching valve insert 6 , 7 is closed and the Woltmann measuring vane 54 is stopped, the water to be recorded flows through the outlet opening 13 to the secondary meter 4 and back to the inlet opening 14 . When the secondary meter 4 flows through, a pressure drop of approximately 0.2 to 0.4 bar arises, so that a lower pressure prevails in the space 10 behind the switching insert 6 , 7 than in the tubular extension 51 in front of the switching insert 6 , 7 . If this differential pressure is large enough, it opens the closure body 71 , 61 against the force of the spring 72 , 62 .

Now the water flows predominantly over the Woltmann measuring wing 54 and is measured in the main counter 2 , 2 '. A small amount of water continues to flow through the secondary counter 4 .

The closing process takes place as follows: With a decreasing flow rate, the closure body 71 , 61 slides upstream until it is pressed by its spring 72 , 62 against the differential pressure that occurs when the closure body 71 , 61 flows around, onto its valve seat 73 , 63 . At this moment the Woltmann measuring wing 54 stops. The amount of water still flowing is detected by the secondary counter 4 alone.

Claims (12)

1.Compound water meter, consisting of a main meter ( 2 ) located in a main line, in particular an extended type Woltmann meter, for the detection of the larger flows and a secondary meter ( 4 ) seated in a secondary line ( 3 ) for the detection of the smaller flows, the Main counter ( 2 ) with a switching valve insert ( 6 , 7 ) arranged behind it, which opens or closes the passage through the main line when a predetermined differential pressure is reached, and has a spring-loaded and axially displaceable closure body ( 51 , 61 ) and with one in a by a The housing cover ( 8 ) of the closable opening ( 17 ) of the meter housing ( 1 ) is fitted with a complete measuring insert ( 5 ), characterized in that the main meter measuring insert ( 5 ) has a tubular extension ( 51 ) on its outlet-side measuring chamber end ( 50 ), on which the complete switching valve insert ( 6 ) is tightly attached. 2. Compound water meter according to claim 1, characterized in that the combination of main meter measuring insert ( 5 ) and switching valve insert ( 6 ) depends on the underside of the housing cover ( 8 ). 3. Compound water meter according to claim 1 or 2, characterized in that the housing opening ( 17 ) and cover ( 8 ) have an elongated shape corresponding to the dimensions of the combination ( 5 , 6 ). 4. Compound water meter according to claim 1, 2 or 3, characterized in that the measuring insert ( 5 ), tubular extension ( 51 ) and / or switching valve insert ( 6 ) by means of at least one support rib ( 23 ) stiffened and supported on the housing cover ( 8 ). 5. Compound water meter according to at least one of claims 1 to 4, characterized in that an O-ring ( 81 ) is provided for sealing between the housing cover ( 8 ) and housing opening ( 17 ). 6. Compound water meter according to at least one of claims 1 to 5, characterized in that in the region of the closure body ( 61 ) an axially open annular channel ( 66 ) is placed around the switching valve insert ( 6 ), the annular opening with the edge of the closure body ( 61 ) forms a throttle point ( 68 ), and that the ring channel ( 66 ) is tightly connected to the inlet opening ( 14 ) of the secondary line ( 3 ) in the main meter housing ( 1 ). 7. Compound water meter according to claim 6, characterized in that an O-ring ( 69 ) is provided for sealing between the inlet opening ( 14 ) and the annular channel ( 66 ). 8. Compound water meter according to at least one of claims 1 to 7, characterized in that the measuring insert ( 5 ) by means of an O-ring ( 55 ) is sealed against the meter housing ( 1 ). 9. Compound water meter according to at least one of claims 1 to 7, characterized in that the measuring insert ( 5 ) against the meter housing ( 1 ) by a round double lip seal ( 56 ) with a radially inwardly and a radially outwardly flexible lip ( 57 , 58th ) is sealed. 10. Compound water meter according to claim 9, characterized in that the lips ( 57 , 58 ) of the lip seal ( 56 ) have a bias in the installed position. 11. Compound water meter according to at least one of claims 1 to 10, characterized in that the switching valve insert ( 7 ) has a round guide ring ( 70 ) and in at least one fitting ( 91 ) of the measuring insert ( 5 ) or its tubular extension ( 51 ) centrally guided, sealed and held. 12. Compound water meter according to at least one of claims 1 to 11, characterized in that the switching valve insert ( 7 ) by means of a flange ring ( 92 ) and screws ( 93 ) is connected to the measuring insert ( 5 ).