DE2919671A1 - Magnetic measurement signal transfer for gas flow meter - using permanent magnets clamped in easily assembled plastic hollow body open on one side - Google Patents

Abstract

A magnetic arrangement for transferring the movement of a measurement mechanism in a meter housing to a meter mechanism outside the housing is suitable for a flow meter and in partic. a gas meter. A permanent magnet connected to the measurement mechanism is sepd. from one connected to the meter mechanism by a non-magnetic wall section. The arrangement is realised using easily assembled parts. The wall section is a hollow cylinder closed on one side with a plastic hollow body open on one side and able to rotate about it. The first magnet is annular and is radially magnetised. It envelopes the wall section with a narrow air gap. A cap holding the magnet in place has latching pieces preventing rotation w.r.t. the outer body.

Description

Magnetic feedthrough for flow meters

The invention relates to a magnetic implementation for flow meters, in particular gas meter, according to the preamble of claim 1.

The permanent magnets must be connected to parts in such a way that they cannot rotate, which in turn are mechanically coupled with the Rem measuring mechanism or with the counter can. This connection is made in a known magnetic feedthrough Gluing or by injection. Both are very complex to manufacture or difficult.

The invention is based on the object of such a magnetic Implementation to be built from easily pluggable parts, so that the processing is facilitated.

According to the invention, this object is achieved by the features in the characterizing part of the patent claim 1 resolved.

Further. Game designs of the invention are the subject of the subclaims.

An embodiment of the invention is hereinafter referred to explained in more detail on the accompanying drawings: Fig. 1 is a Exploded sectional view of a magnetic bushing according to the Invention.

Fig. 2 is a side view of the plastic hollow body.

Fig. 3 is a view of the hollow plastic body from below in Fig. 2 seen.

Fig. 4 shows a longitudinal section of the magnetic bushing in assembled condition.

The magnetic leadthrough 10 is intended to rotate from the inside a meter housing 12, i.e. from the left in Fig. 4, outwards, i.e. to the right in Fig. 4, transferred.

For this purpose, the magnetic feedthrough contains one with the (not shown) measuring mechanism couplable, inner, first permanent magnet 14 and an outer, second permanent magnet 16 that can be coupled to the counter. The two Permanent magnets 14 and. 16 are by an insertable in the meter housing 12 WE ndungskörper 18 made of non-magnetic material, such as brass, separated from each other.

The wall body 18 is a hollow cylinder closed on one side. On the cylindrical wall body 18 is an annular one that is open on one side Plastic hollow body 20 rotatably mounted. The plastic hollow body has a cylindrical Sheath 22 on which on the side facing the meter housing 10 is an annular Floor 24 connects. A hub 26 connects to the bottom 24, by means of which the plastic hollow body 20 is mounted on the wall body 18. On his inside The end face of the hollow plastic body 20 has radial driver strips 28.

The first permanent magnet 14 is ring-shaped and magnetized radially.

It is inserted into the plastic hollow body 20 so that it is the wall body 18 encloses with a narrow air gap 30. The first permanent magnet 14 has in his End face of radial driver grooves 32 into which the driver strips 28 of the Plastic hollow body 20 engage. On the plastic hollow body 20 is an annular Cap 34 put on. The cap 34 is provided with coupling means 36 for coupling with the Measuring mechanism provided. Furthermore, the cap 34 has resilient detent members 38, with which the cap 34 on the plastic hollow body 20 with positive retention of the first permanent magnet 14 can be latched. The cap 34 has a cylindrical Shell part 40, to which a frustoconical section 42 is connected. The section 42 is followed by a hub 44 with which the cap 34 is rotatable is mounted on the wall body 18. The shell part 40 fits on the The outer surface of the permanent magnet 14, which faces away from the counter housing 12 on its face The end face is configured conically corresponding to the conical section 42. At Cap 34 and hollow plastic body 20 are cooperating driver members 38 or 46 attached, which the cap 34 against rotation in the circumferential direction relative to secure the plastic hollow body 20.

In the wall body 18 is a first mushroom-shaped plastic part 48 with a disk-shaped head 50 and a tubular shaft 52 are used. The second permanent magnet 16 is placed on the shaft 52 in a ring shape. He is lying with its one end face on the head 50 and forms with the inside of the Wall body 18 forms a narrow air gap 54 within first permanent magnet 14. The head 50 has a collar 56 through which the second permanent magnet 14 centers will. There is an air gap between the shaft 52 and the inner surface of the permanent magnet 16 58 formed, which has a low radial expansion of the shaft 52 allowed. The second permanent magnet 16 is also magnetized radially. In its The end face facing away from the head 50 of the first plastic part 48 has the second Permanent magnet 16 radial drive grooves 60. It's a second mushroom-shaped plastic part 62 with a disk-shaped head 64 and a pin-shaped shaft 66 are provided. The head 64 of the second plastic part 62 has radial driver strips 68. The pin-shaped shaft 66 of the second mushroom-shaped plastic part 62 has a press fit held in the tubular shaft 52 of the first mushroom-shaped plastic part 48, the driver strips 68 in the driver grooves 60 of the second permanent magnet 16 engage and the second permanent magnet 16 form-fit between the plastic parts 48 and 62 is held. The plastic part 62 also has a head 64 on its head Collar 70 which engages over the permanent magnet 16 and centers it. The second Mushroom-shaped plastic part 62 is provided with coupling means 72 for coupling to the counter Mistake. These coupling means 72 consist of a pin 74 with radial wings 76 and a thread 78 projecting beyond the wings 76. On the thread 78, As indicated in Fig. 4, a gear 80 can be screwed on.

The cap 34 has resilient latching members 82 with which the cap 34 can be latched onto the wall body 18.

On the wall body 18 is a near its open end radial flange 84 is provided, which on the one hand on the inside of the meter housing 1 2 rests around an opening 86 of the same and on which the other hand the Plastic hollow body 20 rests and after locking the cap 34 on the wall body 18 form-fitting between the latched cap 34 and the permanent magnet 14 on the one hand and the flange 84 on the other hand. Between the flange 84 and the open end of the wall body 18, an edge 88 is formed, which after Pushing into the opening 86 of the meter housing 12 is folded outwards, as shown in the upper part of FIG. In this way, a holder is made of the parts on the wall body 18 and at the same time a holder of the wall body 18 on the meter housing 12.

In the preferred embodiment illustrated, the detent members 38 formed by axial, radially outwardly resilient arms 89 around the plastic hollow body 20 reach around and with radially inwardly projecting lugs 90 behind one the shoulder 92 formed on the outer surface of the hollow plastic body 20 snap into place. Four such resilient arms 89 are provided which are angularly offset from one another by 90 ° are.

As a result, the arms 89 are diametrically opposed to one another in pairs arranged.

The arms 89 spring radially against the main part of the cap 34, i.e., the shell portion 40. On the outer surface of the plastic hollow body 20 are two radial projections 46 which are angularly offset from one another are provided as driving members. The space between the projections corresponds to the width of an arm 89. The side surfaces 94, 96 of the projections 46 facing away from one another are spaced apart from each other, which corresponds to the space between adjacent arms 89. the Arms 89 and the lugs act as driving members together, causing a twist the cap 34 relative to the plastic hollow body 20 prevent.

The arrangement described has the advantage that the plugging together the parts can and always be done without special attention from the assembler a positive entrainment is guaranteed. Either an arm 89 is between the projections 46 out or it sit the two projections 46 between two neighboring arms 89. To put together to further facilitate the projections 46 are tapered on their side facing the cap 34 Ends 98 provided.

The preferred embodiment illustrated is a magnetic feedthrough for gas meters. The coupling agents are accordingly 36 formed by an eccentric flag extending in a longitudinal plane, on which a (not shown) crank mechanism of the measuring mechanism engages.

The resilient detent members 82 of the cap 34 for snapping onto the Wall body 18 are formed by axial, radially outwardly resilient arms, which extend to the side facing away from the plastic hollow body 20 and snap into an annular groove 100 in the vicinity of the closed end of the wall body 18.

As can be seen from Fig. 1, is in the head 50 of the first mushroom-shaped Plastic part 48 formed a longitudinal channel 102, which from the bottom of the interior of the tubular shaft 52 zc of the end face of the head facing away from the shaft 52 50 runs. This longitudinal channel 102 allows the air to escape from the shaft 52 when the pin-shaped shaft 66 of the plastic part 62 is pressed into it.

L e r s e i t e

Claims (12)

Claims 1. Magnetic implementation for flow meters, in particular gas meters, for transmitting the movement of a meter in a meter housing arranged measuring mechanism through the wall of the meter housing through to an outside of the meter housing seated counter, containing a can be coupled to the measuring mechanism inner, first permanent magnet and an outer, second magnet that can be coupled to the counter Permanent magnets, which can be inserted into the meter housing by a wall body are separated from non-magnetic material, characterized in that (a) the wall body (18) is a hollow cylinder closed on one side, (B) an annular plastic hollow body (20) open on one side on the cylindrical wall body (18) is rotatably mounted, (c) the plastic hollow body (20) has radial driver strips (28) on its inner end face, (d) the one, first permanent magnet (14) is magnetized in an annular and radial manner and is inserted into the plastic hollow body (20) is inserted so that it has the wall body (18) with a narrow air gap (30) encloses, (e! the first permanent magnet (14) in its end face has radial driver grooves (32) into which the driver strips (28) of the plastic hollow body (20) engage, (f) an annular cap (34) on the plastic hollow body (20) is placed, (g) the cap (34) with coupling means (36) for coupling with the Measuring mechanism is provided, (h) the cap (34) furthermore has resilient detent members (38), with which the cap (34) on the plastic hollow body (20) under form-fitting Holder of the first permanent magnet (14) can be latched, and (i) that the cap (34) and plastic hollow body (20) cooperating driver members (38 or 46) attached are, which the cap (34) against rotation in the circumferential direction relative to the plastic hollow body (20) secure. 2. Magnetic bushing according to claim 1, characterized in that that (j) a first mushroom-shaped plastic part (48) in the wall body (18) a disk-shaped head (50) and a tubular shaft (52) is inserted, (k) the other, second permanent magnet (16) placed annularly on the shaft (52) is, with its one end face on the head (50) rests and with the inside of the wall body (18) a narrow air gap (54) within said first Permanent magnets (14), (1) the second permanent magnet (16) radially is magnetized, (m) the second permanent magnet (16) in its the head (50) of the first Plastic part (48) facing away from the end face has radial driver grooves (60), (n) a second mushroom-shaped plastic part (62) with a disk-shaped head (64) and a pin-shaped shaft (66) is provided, (o) the head (64) of the second Plastic part (62) has radial driver strips (68), (p) the pin-shaped Shank (66) of the second mushroom-shaped plastic part (62) with an interference fit in the tubular Shank (52) of the first mushroom-shaped plastic part (48) is held, wherein the Driving strips (68) in the driving grooves (60) of the second permanent magnet (16) engage and the second permanent magnet (16) form-fit between the plastic parts (48,62) is held and (q) the second mushroom-shaped plastic part (62) with coupling means (72) is provided with the counter for coupling. 3. Magnetic bushing according to claim 2, characterized in that that (r) the cap (34) has resilient detent members (82) with which the cap (34) can be latched onto the wall body (18). Magnetic bushing according to claim 3, characterized in that that (s) on the wall body (18) in the vicinity of its open end a radial Flange (84) is provided, which on the one hand on the inside of the meter housing (12) rests around an opening (86) of the same and on which on the other hand the plastic hollow body (20) rests and after the cap (3.4) has clicked into place on the Wall body (18) form-fit between the flange (84) and the latched Cap (34) is held. Magnetic bushing according to claim 4, characterized in that that (t) between the flange (84) and the open end of the wall body (18) an edge (88) is formed which, after being pushed into the opening (86) of the meter housing (12) is folded outwards. Magnetic bushing according to one of Claims 1 to 5, characterized characterized in that the locking members (82) of the cap (34) for locking onto the Plastic hollow body (20) formed by axial, radially outwardly resilient arms (89) that engage around the plastic hollow body (20) and with radially inward protruding lugs (90) behind one on the outer surface of the plastic hollow body (20) engage shoulder (92). Magnetic bushing according to claim 6, characterized in that that four resilient arms (89), which are offset at an angle of 900 relative to one another, are provided. 8. Magnetic bushing according to claim 7, characterized in that that the arms (89) protrude radially against the main part of the cap (34) and open the outer surface of the plastic hollow body (20) two mutually angularly offset radial projections (46) are provided, the space between the width of one of the Arms (89) and their mutually facing side surfaces (94, 96) in one Distance from each other, which corresponds to the space between adjacent arms (89) corresponds so that the arms (89) and the lugs as the said driver members cooperate. 9. Magnetic bushing according to claim 8, characterized in that that the projections (46) taper on their side facing the cap (34) Ends (98) are provided. 10. Magnetic bushing according to one of claims 1 to 9, characterized characterized in that the coupling means (36) on the cap (34) from one in a longitudinal plane extending, eccentric flag are formed on which a Attacks the crank mechanism of the measuring mechanism. 11. Magnetic bushing according to claim 3, characterized in that that the resilient latching members (82) of the cap (34) for locking onto the wall body (18) are formed by axial, radially outwardly resilient arms, which are after the side facing away from the plastic hollow body (20) and extend into an annular groove (100) snap into place near the closed end of the wall body (18). 12. Magnetic bushing according to claim 2, characterized in that that in the head (50) of the first mushroom-shaped plastic part (52) a longitudinal channel (102) rist, which from the bottom of the interior of the tubular shaft (52) to the end face of the head (50) facing away from the shaft (52).