DE959138C - Gas meter by means of a flow channel and measuring wheel - Google Patents

Description

Gas meter with flow channel and measuring wheel Subject of the invention is a gas meter with a flow channel and measuring wheel, with which at the outflow opening of the flow channel directly in front of the measuring wheel a jet intensity regulating device is attached, for example, consisting of a cylinder with a slot and piston leg, which is connected to a drive element, for example a membrane The drive unit can1 through the pressure difference between the supplier and the consumer room or acted upon by a negative pressure generated in the flow channel.

Most of the commercially available gas meters are used as diaphragm gas meters executed, which have the disadvantage of large dimensions and also many levers, joints, Have shut-off devices, etc.

Another type; the wet drum gas meters have a considerable amount higher measuring accuracy, but their area of application is due to their liquid filling limited. The well-known measuring wheel, impeller, screw and displacement gas meter have only a limited measuring range and high pressure losses. These disadvantages are omitted from the subject matter of the invention.

According to the invention, the gas meter has a flow channel with a straw 5 jet intensity regulating devices attached directly in front of a chisel wheel, which is in communication with a drive member. Its dimensions can be small be held, and he has by arrangement one Auxiliary flow channel a large measuring range. Since the drive energy is low, occur when the flow of the gas only low pressure losses. The area of use is therefore special large, especially since, according to the invention, multiple, highly sensitive regulation options given are.

On the basis of the drawing, which shows a section through the blasting device and represents a part of the measuring wheel I8, the invention is described The inlet nozzle I leads to the inlet space 2, in which the cylinder 4, the flow channel 6, the slot 5, the auxiliary flow channel 3, the piston 7 with the beveled piston crown plane 31 and the jet angle regulation 8 are housed. From the piston 7 leads the piston rod 9 to the membrane. 10, which are hung on the drawstrings II and the inlet space 2 seals off the membrane space 12 in a gas-tight manner.

The counter-pressure spring 13 and the stop are located in the diaphragm space I2 14. The stroke limiter rod 33 is attached to the piston rod. The compensation opening I5 connects the membrane space I2 with the outlet space I6. In this is the measuring wheel I8 arranged, which is provided with the measuring wheel friction disk 34. On the measuring wheel axle I9 the Meßradachsmagnete 22 are attached, with their poles against the partition 24 are directed. The measuring wheel friction disc 34 is between. the poles of the regulating magnet 23 arranged, which is displaceable or rotatable to the measuring wheel I8. On the measuring wheel axle 19 above the Meßradfußlager 20 is the canopy 2I, soft over the measuring wheel foot bearing protrudes.

The output space I6, which is connected to the outlet connection I7 is separated from the meter chamber 25 by the partition 24.

This contains the register 26 with the register axis 27, on which the counter axis magnets 28 are directed with the poles to the partition wall 24 are attached. The regulating body 29 is attached in the force line area of these magnets, whose distance to the register axis maglletes 28 can be changed.

In a further development of the subject matter of the invention it is provided that the flow channel 6 are wholly or partially made of elastic material be could and at the outlet opening, corresponding to slot 5 according to the drawing, could have a .. squeezing device with variable squeezing pressure, which by means of lever transmission with a membrane, for example in the embodiment of the membrane 10 according to FIG Drawing, can be related. It is also provided that the flow channel 6 could be equipped with other beam intensity regulating devices than indicated in the drawing. This could, for example, consist of a flow cone, from a slide or from a panel with many overlapping slats consist of the type of iris diaphragm. These organs could be like the piston7 according to the drawing with a membrane or with a piston in the cylinder or with a bellows or the like. Be connected. To act on the measuring wheel 18 could also several Flow channels 6 or a plurality of auxiliary flow channels 3 may be provided, namely either in the version with a jet intensity regulation device on all flow channels and auxiliary flow channels or only on. some of these channels. The type of application of the measuring wheel 18 could be axial or tangential or semi-axial or semi-tangential or semi-radial or the like. In addition, it is also provided according to the invention that a part of the flow channels the measuring wheel 18, for example axially, another part could act tangentially. The same applies to the auxiliary flow channels. The auxiliary flow channel 3 could consist of elastic material, for example take the form of a rubber grommet with a small vent at the top.

In a further development of the measuring wheel I8 it is provided that the measuring wheel friction disc 34 could either be roughened itself or, for example, a rough covering in the form of emery cloth, or with regular or irregular. Elevations, depressions, ribs, grooves, furrows, holes, bristles or the like. Provided could be. It could be in the form of a drum, the surface of which is covered with a has a rough surface or any other quality specified above Has. A plurality of measuring wheel disks could be arranged on a measuring wheel axle 19. Of the Edge of the measuring wheel 34 could with blades in the manner of a Pelton wheel or one Francis turbine or the like. Be designed. Similar blade shapes could also be present on the wheel body approximately at the level of the measuring wheel axis I9.

Another embodiment of the invention could, for example, a Provide measuring wheel friction disk 34 rigidly attached to the measuring wheel axis I9, under which (below in the sense of the drawing) can be loosely and axially displaced on the measuring wheel axis 19 seated, an impeller with axial loading is arranged in the manner of a Kaplan wheel could be, which is equipped with a driving pin and when entering axial displacement in the measuring wheel friction disc 34 would engage.

The counter chamber 257 which is made of glass or plastic, for example could exist, could run for itself completely separate from the other gas meter rooms will. It could also contain a filling of inert gases or under vacuum stand.

The mode of operation of the gas meter according to the invention is as follows: The gas enters the inlet chamber 2 through the inlet port I and takes in its way through the flow channel 6 to the auxiliary flow channel 3. Through this Channel it acts on the measuring wheel I8 via the measuring wheel friction disc 34. It sets these and thus also the measuring wheel axle magnets 22 in rotation. The torque is through the lines of force of the magnets mentioned through the partition wall 24 through to the counter axle magnets 28 transmitted, whereby the counter axis 27 is set in rotation and in this way the counter 26 is actuated. The flowed through Gas amount can. read directly from the counter. will. The gas leaves the exit room I6 through the outlet connection I7 and from there reaches the consumer point. If more gas is consumed here, the intestine first flows through the auxiliary flow channel 3 also more gas through until through the increased gas friction in the exit space I6 compared to the inlet space 2, a negative pressure arises. As a result of the pressure equalization through the compensation opening I5 also occurs in the membrane space I2 opposite the inlet space 2, a negative pressure which moves the membrane 10 in the direction of the membrane space 12 emotional. The start of this movement can be triggered by the adjustable counter pressure spring I3 can be set precisely. Through the drawstrings 11 the vertically attached membrane ' 10 weight-relieved and cannot lengthen downwards (downwards in the sense of the drawing).

The diaphragm movement is transmitted to piston 7 via piston rod g transmitted, which exposes part of the slot 5, which is in the cylinder 4 is located. Through the released opening of the slot. 5 a gas jet flows against the measuring wheel friction disk 34 and acts on it more strongly than before was the case by the gas jet from the auxiliary flow channel 3. With further increasing Withdrawal at the consumer point is through the further moving membrane 10 of the Slot 5 also continues to open until the slot is fully open is reached. At this moment the membrane I0 reaches the stop I4, which can be set precisely, and the gas meter according to the invention has its highest Throughput achieved. If gas consumption decreases at the point of consumption, so the pressure difference between membrane space 12 and inlet space 2 is lower, and the counter-pressure spring I3 pushes the diaphragm 10 back. So that is through the piston 7 drer slot 5 is reduced in size until it is finally completely closed again. A further displacement of the piston is caused by the stroke limiting rod 33, which hits against the cylinder 4, prevents.

The jet angle regulation 8 has the task of the angle with which the gas jet flows against the measuring wheel friction disk 34 to adjust. Depending on the choice of the size of the jet angle the measuring wheel friction disc 34 experiences a variable Loading and thus a different speed.

So it is possible for the same type of beam to be completely different Speeds. the measuring wheel axis 19 to get. So doing this can be very accurate that speed can be set., which the counter 26 the flowed through Indicates the amount of gas. Also by means of the regulating magnet. 23, between whose poles the Meßradr friction disc 34 rotates, can, the speed of the SIeßrades I8 largely be set by the fact that the measuring wheel friction disc 34 by setting of the regulating magnet 23 exposed to the force field of the magnet to a greater or lesser extent will. The regulating body 29, which outside of the Gas-filled spaces in the force line field of the counter axis magnets 28 shifted can be. The measuring wheel I8 changes its speed when the bearing changes of the regulating body 29, which can be made very easily from the outside in this Kind of regulation only a little. The regulation is between the measuring wheel axle 19 and the counter axis 27 generates a certain slip, which is extraordinary fine-tune l: eats.

Both the regulating magnet 23 and the regulating body 29 also practice the idle damping off. All of the regulating devices described have them the advantage that the loss of kinetic energy of the gas is low, so that the pressure loss within the gas meter according to the invention remains small.

The components provided in the further design of the gas meter, which are not shown in the drawing correspond in their mode of operation to those above parts described ;. So could instead of the flow channel 6, which from. one Cylinder 4 with piston 7 is made, one of which is made of elastic material be, for example in the form of a hose, the outlet opening through which a pinch device is regulated. The operation of this device could also here, as indicated in the drawing, take place through a membrane 10. Illustrates this process is best done by the. Thumb of one hand, showing the opening of the beam of a water hose is regulated by moving the hose walls more or less pressed on top of each other. According to the invention, further beam intensity regulating devices could also be used can be provided, such as flow cones, slides or diaphragms Kind of an iris diaphragm with many overlapping lamellas. Also the drive of this Construction parts could be done by a membrane or the like.

With larger versions of the subject matter of the invention could Place a flow channel 6 and an auxiliary flow channel 3 several such Channels are provided. The auxiliary flow channels 3 could also have a jet intensity regulating device A formation of the auxiliary flow channel 3 in the manner of a small one Rubber sucker, whereby the term "rubber" is only used for a more detailed description, has the advantage that the small opening is due to the elasticity of the walls practically with dust grains or the like does not clog.

The measuring wheel 18 could in a further embodiment of the invention with several Measuring wheel friction disks 34 and, for example, also provided with a Pelton wheel so that the loading of the measuring wheel friction disks 34 through auxiliary flow channels 3 occurs if only a little. Gas is consumed. If more consumption occurs, a stronger gas flow would be released in the manner already described, which acts on the Pelton wheel. In this way it would be possible to control the flow to display small and large amounts of gas. Should be at the loading; serve through an auxiliary flow channel 3 be avoided that the The impeller rotates with the large impact, so this would, for example, be formed as a Kaplan wheel, loosely on the measuring wheel axis 19 below (below in the sense of the drawing) the measuring wheel friction disc can be attached. Would this disc through the If the auxiliary flow channel 3 is acted upon, the Kaplan wheel does not rotate with it. With stronger Consumption would be a flow channel similar to that denoted by 6 in the drawing opened, and the Kaplan wheel would be acted upon in the axial direction by the gas jet. It would spin. and through the immediate axial thrust against. the bottom of the measuring wheel friction wheel 34 and: with this wheel by a coupling pin be connected. Well, the display would be on the measuring wheel axis 19 etc. on the counter take place. This could be inl a further embodiment of the invention in a removable. Cell lower which is completely closed This would have the advantage of quick interchangeability. When filled with neutral gases or by generation a vacuum. in the counter chamber 25 would prevent the sensitive Chemical influences occur which are undesirable. The gas meter According to the invention could also be attached at a point where a Gas meters of the commercially available design not attached due to the impossibility of reading could be. It would suffice to pull out the counter chamber 25 for reading and 'take the reading at any desired point.

The upper load 2I, which is attached to the measuring wheel axis 19, would have the task of protecting the measuring wheel foot bearing 20 against contamination.

In summary, the following can therefore be said: The gas meter according to the invention has a large measuring range and a high sensitivity. He can be regulated in various ways. There is only a small part the kinetic energy of the gas. lost in the meter, so that the pressure loss is low. The flow takes place without pressure pulses. The corridor is noiseless. the Construction costs are low, so that the manufacturing costs are low.

Claims (23)

The repair costs are within normal limits, as all parts are exchangeable and the wear and tear is small. PATENT CLAIMS: I. Gas meter by means of. Flow channel and measuring wheel, characterized in that the 'flow channel (6) with a beam intensity regulating device placed directly in front of a measuring wheel (I8) (4, 5, 7) is provided, which is connected to a drive member (10). 2. Gas meter according to claim 1, characterized in that the flow channel (6) is formed from a cylinder (4) and a piston (7) 3. Gas meter according to claim I or 2, characterized in that the StraJ31 strength regulating device from the Cylinder (4) is formed with a slot (5) and the piston (7). 4. Gas meter according to one of the preceding claims, characterized in that that the drive member is designed as a membrane (10). 5. Gas meter according to one of the preceding claims, characterized in that that the flow-side piston crown plane (3I) runs obliquely to the piston longitudinal axis. 6. Gas meter according to one of the preceding claims, characterized in that that a jet angle regulator (8) is arranged in the flow channel (6). 7. Gas meter according to one of the preceding claims, characterized in that that from or in front of the flow channel (6) one or more auxiliary flow channels (3) go out that are either equipped with a traction strength regulating device or have an outflow opening with a constant passage cross section and the measuring wheel (I8) in tangential or in axial or in both. Apply directions. 8. Gas meter according to one of the preceding claims, characterized in that that the measuring wheel (18) is equipped with a measuring wheel friction disc (34) which either itself is rough or with a rough covering, for example emery cloth or od. Like., is provided. 9. Gas meter according to claim 4, characterized in that the vertical arranged membrane (10) is equipped with drawstrings (11) from the middle of the membrane lead to the housing wall. 10. Gae7ähler according to one of the preceding claims, characterized in that that on the measuring wheel axle (19) measuring wheel magnets (22) are arranged with their poles separated through a partition (24), the poles of counter axis magnets (28) are opposite, which are attached to the counter axis (27). 11. Gas meter according to one of the preceding claims, characterized in that that the measuring wheel foot bearing (20) has a canopy (2I) which is attached to the measuring wheel axis (I9) is attached 12. Gas meter according to claim 8, characterized in that the Measuring wheel friction disc (34) or a special one attached to the measuring wheel axle (I9) Disc in front of or between the poles of a movable regulating magnet (23) is arranged. 13. Gas meter according to claim 10, characterized in that im Line of force area of the counter magnet (28) or the measuring wheel axle magnet (32) a regulating body (29) made of metal or partially made of metal is adjustable is 14. Gas meter according to one of the preceding claims, characterized in that that the counter chamber (25) against the gas filled rooms of the gas meter as well as from the surrounding air is completely closed and a Has filling of an inert gas or is under vacuum or with air is filled. 15. Gas meter according to claim I or 2 or one of claims 4 to I4, characterized in that the beam intensity regulating device consists of an elastic Hose with a squeezing device or from a movable in a flow channel arranged lintel cone or from one arranged in a flow channel Slide or from a diaphragm arranged in a flow channel with many overlapping lamellae od like the type of iris diaphragm. I6. Gas meter according to one of Claims 1 to 15, characterized in that that there are several flow channels (6) to act on one or more Measuring wheels (18) or measuring wheel friction disks (34) or blades of a different design in tangential or in axial or simultaneously in tangential and axial direction. 17. Gas meter according to claim I or 7, characterized in that the auxiliary flow channel (3) consists entirely or partially of elastic material and for example in the form of a rubber grommet with a hole in the tip. I8. Gas meter according to one of Claims I to I7, characterized in that that the flow channel (6) or the auxiliary flow channel (3) or parts of both are designed as a jet apparatus or as parts of such. 19. Gas meter according to one of claims I to I8, characterized in that that the measuring wheel (I8) has several measuring wheel friction disks (34) or one or more measuring wheel friction cylinders which is made of metal, plastic or partly made of metal and partly made of Are made of plastic and the surface of which is completely or partially covered with grooves, ribs, Furrows, pores, holes or bristles, needle-like elevations or the like. Be covered is 20. Gas meter according to one of claims I to I8, characterized in that on the measuring wheel axle (I8) except for one or more measuring wheel friction disks (34) or one or more measuring wheel friction cylinders and one or more running wheels the type of known Pelton, Francis, Kaplan turbine wheels od. The like. Arranged are. 21. Gas meter according to one of claims I to I8, characterized in that that on the measuring wheel axle (19), for example, a measuring wheel friction disc or a Meßradrei, practice cylinder is attached to which or which to. the outer circumference have an impeller rim which is designed in the manner of a Pelton wheel 22. Gas meter according to one of claims I to I8, characterized in that under a measuring wheel friction disc (34, below in the sense of the drawing), which is attached to a Mehradachse (19) is attached and tan through a flow channel; applied geutially is, an impeller is located in the manner of a Kaplan wheel, which loosely and axially on the measuring wheel axis (I9) is mounted displaceably, axially through a flow channel is attacked and has a driving pin for locking in the axial direction Od into an opening. The like, which is attached to the measuring wheel friction disc (34). 23. Gas meter according to one of claims I to 22, characterized in that that the counter chamber (25) has the shape of a closed cell that consists of the Gas meter housing is removable and made of metal, plastic or glass or partially made of metal, plastic or glass.