GB2056089A

GB2056089A - Dry gas meters

Info

Publication number: GB2056089A
Application number: GB8016436A
Authority: GB
Original assignee: United Gas Industries Ltd
Current assignee: United Gas Industries Ltd
Priority date: 1979-06-09
Filing date: 1980-05-19
Publication date: 1981-03-11
Also published as: DK244980A; EP0048036A3; GB2056089B; EP0021640A3; EP0048036A2; DE3070445D1; ATE12689T1; EP0021640A2; EP0021640B1

Abstract

The members of a lever drive mechanism in a diaphragm type gas meter are made of resilient plastics material. The connections between the members are of two types, one as at (23) having a post with an enlarged head which may be forced through an opening (45). The other type as at (44) has a hooked mouth engaging over a post (31). The arrangement is such that the forces met in use are not such as to tend to disengage the connections. The meter may therefore be assembled quickly and easily. <IMAGE>

Description

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GB 2 056 089 A 1

SPECIFICATION Dry gas meters

This invention relates to dry gas meters of the kind in which back-and-forth movements of 5 diaphragms in gas chambers are transmitted from a flag rod through a lever drive mechanism to operate valves for the admission and release of gas from the chambers.

' The lever drive mechanisms have in the past 10 required skilful assembly work. For instance, as shown in U.K. Patent No. 1,165,151, all the items of the mechanism are screwed or bolted together, requiring considerable assembly time. Such mechanisms have usually been made of metal 15 items which lend themselves to screwed or bolted connections.

The invention provides a gas meter of the kind in which back-and-forth movements of diaphragms in gas chambers are transmitted from 20 oscillating flag rods through a lever drive mechanism to operate valves for the admission of gas to the chambers characterized by said lever drive mechanism comprising a plurality of members all of resilient plastics material, which 25 have connections which are releasably secured together by resiliently forcing a post on one member into an opening on another member, the respective openings and posts all being arranged so that the forces to which they are subjected in 30 use do not tend to disengage the posts from the openings.

The advantages of the invention are that the previous metal items of the lever drive mechanisms have been replaced by items of 35 resilient plastics material and the connections of these items have been made quick and easy to make, so reducing the time required for assembly. Moreover, although the items of resilient plastics material would be considered to suffer the 40 disadvantage of being somewhat unsuitable for making screwed connections since the threads tend to strip, this has according to the invention been turned into an advantage, since the forms of connections used have no screw threads but are 45 also more easily made than threaded connections. The possible difficulty that such connections might become easily detached in use has been overcome, since it has been discovered that the forces met in use can be arranged to act in 50 directions not tending to disconnect the connections.

A specific embodiment of the invention is shown in the accompanying drawings in which:—

Figure 1 is an exploded perspective view of a 55 gas meter of the kind described, with insets of details of various parts, and

Figure 2 is a detail of the arrangement of a crank drive mechanism of Figure 1.

The meter comprises a pair of gas chambers 60 (11,12) each divided by a flexible diaphragm, the chambers on each side of the diaphragm being alternately supplied with gas via valve openings in seat (13). Gas exhausts from the chambers through an exhaust tube (14), carried on a plate

65 (14') secured to seat (13).

Each diaphragm carries a flag rod connector (not shown) for instance of the kind described in our U.K. Patent Application No. 7920155. Back-and-forth movements of each diaphragm are 70 translated into oscillating movements of metal flag rods (1 5, 16) which extend in gas-tight manner out of the gas chambers to be connected to a lever drive mechanism. The lever drive mechanism transmits the oscillating movement of 75 the flag rods to valves (19, 20) and to an index (not shown).

The lever drive mechanism is formed entirely of members made in a resilient plastics material, e.g. acetal. Flag arms (21, 22) are screwed tightly onto 80 the flag rods and are directed downwardly from the flag rods. At their lower ends they carry upwardly directed pins (23, 24) over which openings (45) in the ends of crank levers (25, 26) are spring fitted, so allowing the levers to be 85 pivotally attached to the flag arms by simply pushing them over the pins. The pins have their upper ends of slightly increased diameter, as shown in the inset, such that the openings in the levers have to be forced over them, the openings 90 then being a loose fit on the lower portion of the pins but retained thereon by the increased diameter upper ends. It will be appreciated that the drive transmitted through the pins tends to produce forces normal to the pin axis, which do not 95 tend to pull the pins out of the openings. They can, however, be dismounted when required by sufficient upward pressure. The crank levers (25,26) are at their other ends loosely threaded onto a common pivot pin (28) seen best in the 100 inset, which is a spring fit in a tangent member (29) described in more detail in our U.K. Patent Application No. 7920156, the pin (28) having an increased diameter upper end (28a) similar to pins (23,24).

105 The tangent member (29 drives a spindle (30) of a gear box (18), the spindle emerging at the top of the gear box to drive a crank drive (46) having two opposed acetal crank pins (31, 32). The gear box shaft (39) drives an index (not shown) for 110 recording the volume of gas measured by the meter.

Two acetal valve-operating levers (33, 34) each have one end formed with a hooked opening (44) which is a spring fit on one of the crank pins 115 (31, 32). The open mouth of the hook is slightly smaller than the diameter of the corresponding crank pin, so that it can be forced onto the crank pin by resilient deformation of the hook, but remains connected until sufficient force is applied 120 to it to disconnect it. The other ends of the levers have downwardly directed pins (40,41) which are spring fits in openings (35, 36) in the valves (19, 20), the pins having increased diameter ends like pins (23, 24,28). The valves have key-hole 125 shaped slots (37, 38) in which engage pins

(42, 43), each pin having a key-hole shaped top as seen best in the inset. To mount the valves on the pins, the key-holes of the pin heads are aligned with the key-hole slots, and passed through the

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GB 2 056 089 A 2

slots. When the heads emerge from the slots, the valves are turned with respect to the pins so that the key-holes are no longer aligned and the valves cannot be removed. The positions of the key-holes 5 are chosen so that in use the valves never enter the position in which the key-holes are aligned and the pins can be withdrawn. However, in deliberate disassembling, the pins (40,41) can be removed and the valves then swivelled to the 10 position in which the key-holes are aligned. The engagement of the pins (42,43) on the valves affords a pivotal mounting, the valves being reciprocated back-and-forth in an angle about pins (42,43), driven through the levers (33, 34). In this 15 movement the valve openings in seat (13) are opened and closed in timed relationship.

In order to obtain a continuous movement with no 'dead' position, the movement of one diaphragm leads the other. It will therefore be 20 seen that the valves (19,20) must oscillate out of phase with one another. Each valve as it reaches the end of an oscillation has a brief dwell period when it is effectively stationary. The crank angles of the crank pins (31,32) are designed with 25 relation to the angles of levers (33, 34) so that the pins are moving in the direction toward the open mouths of the hooks of levers (33,34) generally during this dwell period, so that there is little or no resistance to the movement of the pins. At all 30 other times of the oscillation the pressure applied by the pins to the levers is contained within the circle of the enclosing hook. By arranging for the moment when the pressure would tend to disengage the hook to coincide with a point at 35 which little or no drive is being transmitted the likelihood of disengagement is much reduced. Figure 2 shows the position when valve (19) is at its bottom-most position as seen in the Figure at its stationary point. Crank (46) is positioned so 40 that crank pin (31) would tend to move out of the mouth of hook (44), if there had been driving pressure between the pin and the lever (33).

Claims

1. A gas meter of the kind in which back-and-45 forth movements of diaphragms in gas chambers (11, 12) are transmitted from oscillating flag rods (15, 16) through a lever drive mechanism to operate valves (19,20) for the admission of gas to the chambers characterized by said lever drive 50 mechanism comprising a plurality of members (21,22,25, 26, 31, 32, 33, 34) all of resilient plastics material, which have connections which are releasably secured together by resiliently forcing a post (23, 24, 31, 32,40,41) on one 55 member into an opening (35, 36,44,45) on another member, the respective openings and posts all being arranged so that the forces to which they are subjected in use do not tend to * disengage the posts from the openings. 60

2. A gas meter as claimed in claim 1, further characterized by a first series of said connections having posts (23, 24, 40, 41) having ends of increased diameter which may be resiliently forced axially through respective openings, the 65 forces to which said posts are subjected in use being normal thereto with no axial component tending to disengage the posts and by a second series of said connections having openings (44) comprising a hooked shape which may be 70 resiliently forced over a post (31, 32) in a direction normal thereto, the forces between the posts and the openings in use being such that little or no pressure is applied from the posts in the direction toward the open mouths of the hooks. 75

3. A gas meter as claimed in claim 2, further characterized by said second series of connections being between a crank drive (46) having two opposed crank pins (31, 32) and two valve-operating levers (33, 34) carrying at one end said 80 hook-shaped openings (44) which are resiliently forced over said crank pins, the other ends of said valve-operating levers (33, 34) having connections of the kind of said first series to the ends of pivotal slide valves (19, 20). 85

4. A gas meter as claimed in claim 3, further characterized by said lever drive mechanism including flag arms (21,22) secured to be oscillated by the flag rods (15,16) and having connections of said first series to a pair of crank 90 levers (25, 26) which crank levers rotate a spindle (30) which drives a gear box (18) as well as said crank drive (46).

5. A gas meter as claimed in claim 4, further characterized by said flag arms (21,22) being 95 downwardly directed from the flag rods (15, 16) * whereby the overall height of the lever drive mechanism is kept to a minimum.

Printed for Her Majesty's Stationery Office by the Courier Press, Leamington Spa, 1981. Published by the Patent Office, -25 Southampton Buildings, London, WC2A 1AY, from which copies may be obtained.