NL1030216C2 - Gas meter bracket, has adjustable inlet pipe between gas main and meter inlet to allow direction connection with main regardless of what side it is on relative to meter - Google Patents

Abstract

The inlet pipe between the gas main (3) and meter inlet (4) is adjustable, allowing the bracket to be adjusted in situ so that a direct connection with the gas main is possible, regardless of whether this connection is on the left or right side of the bracket and gas meter (2). The bracket comprises a connection device such as a ball valve casing for mounting on the gas main, an inlet pipe leading from the connection device to the meter inlet, and an outlet pipe leading from the meter outlet (5) to an internal conduit. Independent claims are also included for the following: (1) First box-shaped, essentially closed casing for the bracket, comprising compartments for enclosing tubular components which each form part of the bracket, as well as a fastener device for securing the meter to a rear wall or similar support, the tubular parts being designed to be connected to the meter inlet and outlet respectively; (2) Second box-shaped casing for the bracket, comprising casing portions for forming part of the inlet pipe and/or outlet pipe, as well as a fastener device for securing the meter to a rear wall or similar support, so that these casing pipe portions transport gas to the meter inlet and outlet respectively; (3) Method for producing the second casing as a single-piece article by injection-molding, using mold cores to form the integral pipe portions, removing the cores from these portions and mounting covers on the core openings; (4) Combination of the bracket and either the first or second casing; (5) Method for installing the bracket by securing a wall support (6) to a real wall, positioning the inlet pipe of the bracket on the left or right side depending on the gas main position, securing the prefabricated bracket to the wall support by sliding it into engagement with a clamp on this support, connecting the connection device (e.g. ball valve casing) on the bracket with the gas main and securing the wall support clamp using e.g. fasteners; and (6) Method of producing the bracket as a single-piece article by joining together inlet pipe parts to form the inlet pipe, placing the inlet and outlet pipes in a casing part, and closing the casing by placing a second casing part over the pipes.

Description

TITLE. Universal gas meter bracket, method of assembly and method of manufacture thereof.

The invention relates to a universal gas meter bracket ready for mounting on a main gas line.

Such a gas meter bracket is known from NL1009933. This known bracket comprises an elongated tube as a food part which is also suitable for mounting at some distance against a wall of, for example, a meter cupboard. A ball valve housing is provided on this tube with a connection for the supply line to the gas meter. In addition, the gas meter discharge line is also connected as welded to the elongated tube, so that a gas meter with a standard prescribed distance between the gas inlet and the gas outlet can be mounted quickly and easily. The ends of the elongated tube of the known bracket are open and not yet provided with a connecting piece with the main gas line and with a plug, because the main gas line can be arranged both left and right with respect to the wall of the meter cupboard. As a result, the fitter must place the plug and the connecting part to the main gas line at the correct end of the pipe. This entails extra assembly time and the risk of leakage at the ends is also increased, because the bracket is often mounted during construction in a dirty and dusty environment, so that contamination of the parts to be coupled can easily occur.

It is an object of the invention to provide a universal gas meter bracket which can be easily adapted to the position of the main gas line relative to the gas meter and further greatly reduces the risk of leakage by limiting the number of assembly operations on site.

To this end, the invention provides a universal gas meter bracket ready for direct mounting on site to a main gas line for connecting a gas meter with standardized distance between input and output connections and an inner line, the main gas line being either left or right with respect to the bracket and gas meter, consisting essentially of: - a coupling member, such as a ball valve housing, for mounting on the main gas line, - an input line from the coupling member to the gas meter input and - an output line for coupling to the gas meter output to the inner line , wherein the input line between the main gas line and the gas meter input 5 is adjustable so that, irrespective of whether the connection to the main gas line is now to the left or to the right of the bracket and the gas meter, using the adjust the location of the universal gas meter bracket relative to the gas meter input is thus always achieved by means of the adjustability in the position of use of the said input line 10 that directly connects to the main gas line.

In a first preferred embodiment, the adjustable input line comprises at least two interconnected input line parts, wherein adjustability is provided in the position of use to be occupied by means which allow a mutual rotatability of the line parts relative to each other. These means for adjustment are simple to fabricate without welding operations. In a second preferred embodiment, at least one pipe part is provided with a substantially right-angled bend and wherein the means that provide for mutual rotation are located in a vertical part of the pipeline 20 in its position of use.

By arranging the adjusting means in a vertical pipe part, a horizontal pipe part can easily be turned into the correct position of use.

In a third preferred embodiment the input line parts are coupled by means of a plug-in coupling which is provided with one or more O-rings, wherein the means for the mutual rotatability are realized in the plug-in coupling.

By combining adjusting means and sealing means on pipe parts, an adjustability that can be produced easily and cheaply can be realized with a good gas-tightness.

In a fourth preferred embodiment, a second part of the input pipe is formed by two substantially identical pipe parts, both provided with a right-angle bend and mutually coupled with the aid of a plug-in coupling which is provided with one or more O-rings.

3

The input line can now be easily assembled from a number of prefabricated or prefabricated parts, so that it is not necessary to manufacture complicated parts from one piece.

In an alternative embodiment, a second part of the input line is formed by one or more housing line parts provided in a housing.

In particular, the gas discharge line is formed by one or more housing line parts provided in a housing. By forming the gas pipes in the housing, a number of prefabricated pipe parts are not necessary, so that the gas meter bracket can be manufactured easily and at low costs.

The coupling parts of the inlet line parts and the ball valve housing are preferably provided with (bayonet) locking means.

In particular, the inlet line part is provided at both ends with an insertion opening comprising a recess, edge and groove and that the insertion ends are provided with cams. These measures make it easy to dismantle the gas meter bracket, while in the position of use with sealing it is prevented that pipe sections loosen or loosen up undesirably.

The invention also relates to a box-shaped substantially closed housing for a universal gas meter bracket. In particular, this housing is provided with compartments for enclosing a number of tubular components that each form part of the universal gas meter bracket and is also provided with a mounting member for attaching the gas meter to a rear wall or similar support, in which housing the ready-for-use position of all pipe components is coupled to the input to resp. output of the gas meter and optionally both the left or right-hand position of use for the components can be set or taken.

The housing preferably comprises two mutually connectable housing parts, wherein the compartments are provided in at least one housing part.

Preferably, the compartments lock the insert connections against undesired release, but allow the mutual rotatability of one or more pipe sections.

4

This housing gives the gas meter bracket a beautiful appearance, while moreover this housing provides rigidity to the pipe sections, in particular the adjustable pipe section, and also simplifies fixing to the wall support.

The invention also relates to a box-shaped housing for a universal gas meter bracket, provided with housing line parts for forming a part of the input line and / or provided with housing line parts for forming a part of the output line and also provided with a fixing member for fixing the gas meter on a rear wall or similar support, so that the pipe sections of the housing, in the position of use, feed gas to the inlet resp. output from the gas meter.

In particular, the insert coupling forms a whole with the housing. This housing of the gas meter bracket can easily be manufactured, for example by injection molding, whereby the gas meter bracket can be offered at a lower cost.

The invention also relates to a combination of a universal gas meter bracket with a housing.

The invention also relates to a method for mounting a gas meter bracket. To this end, the method comprises the following steps: - fixing the wall support on a rear wall; - adjust left or right of the gas meter bracket input line to the position of use based on the position of the main gas line; - mounting the prefab gas meter bracket on the wall bracket by sliding it with the wall bracket on the wall bracket; - connecting the coupling member such as a ball valve housing of the gas meter bracket to the main gas line; - securing, for example with the aid of fasteners, the wall support clamp of the gas meter bracket.

This method has the advantage that it allows a fitter to mount a gas meter bracket faster and therefore cheaper in the meter cupboard of a home.

5

The invention also relates to a method for manufacturing a gas meter bracket in one piece. To this end, the method comprises the following steps: - mounting the input line by coupling the parts together; 5 - placing the input line and the output line in a housing part; - closing the housing by fitting a second housing part over the pipes.

This method has the advantage that the production of the gas meter bracket does not require expensive and time-consuming production steps, such as, for example, the mutual welding of parts.

The invention also relates to a method for manufacturing a one-piece housing, comprising the following steps:

Injection molding of the housing, injection molding cores being used to form the integrated pipe sections; 15 ~ Removing the injection molded cores from the pipe sections;

Mounting lids on the core openings.

! ! By injection molding, the housing can be manufactured in one step with a mold and injection mold cores, so that little post-processing is required or the production of individual parts.

20

The invention will be explained in more detail below with the aid of the drawing of an exemplary embodiment of gas meter bracket.

FIG. 1A shows a rear perspective view of the new gas meter bracket 25 mounted on a right-hand main gas line that is connected to a gas meter;

FIG. 1B shows in front view the gas meter bracket with gas meter and the right-hand main gas line of Fig. 1A;

FIG. 2A shows in front view the box-shaped housing in which the gas meter bracket of Fig. 1A is accommodated;

FIG. 2B shows in front view the input and output line of the gas meter bracket of Fig. 2A, the housing being omitted; 6

FIG. 2C shows the input and output line of Fig. 2B in cross-section, the input line being positioned on the left;

FIG. 3A shows in front view the input and output conduit with the rear housing part of the housing; FIG. 3B is a rear view of the input and output conduit housed in the front housing part of the housing;

FIG. 4A shows the ball valve housing in cross section;

FIG. 4B shows the ball valve housing of FIG. 4A in top view;

FIG. 4C, 4D, 4E, 4F show four feed line parts in cross-section; FIG. 5A - 5F show different views of all sides of the rear housing part;

FIG. 6A - 6F show different views of all sides of the front housing part;

FIG. 7A, 7B show in rear view the mounting of the gas meter bracket on the wall support,

FIG. 8A, 8B show an alternative embodiment of the gas meter bracket in front and rear view,

FIG. 9 shows a front perspective view of the housing of the alternative embodiment of gas meter bracket, FIG. 10A - 10F show different views of all sides of the housing of FIG. 9

FIG. 11A, 11B show cross-sections of FIG. 10B,

Figures 12A - 12G show different views of all sides of the adjustable input line part according to an alternative embodiment, Figures 13A, 13B show in side view and top view, respectively, the ball valve housing with bayonet insertion end,

14A, 14B show in front view and top view of an alternative wall support.

Fig. 1A shows a gas meter arrangement with a gas meter bracket 1 according to the invention, a gas meter 2 and a main gas line 3. Such an arrangement is located in a meter cupboard of a home. In order to simplify the mounting of the gas meter 2, a so-called gas meter bracket is often applied, on which the connections to be laid are already prefabricated. This has the advantage that the fitter or installer can quickly and inexpensively install the gas distribution system in a house without having to tailor all kinds of couplings and connections first on site. Moreover, in this way any gas leakage from the pipe connections or couplings due to fouling can be greatly reduced. In general, depending on the type of main gas line to be connected to, the gas meter bracket is also pre-fitted, prefab, with a suitable connection adapter. By mounting a valve in the gas meter bracket beforehand, the entire gas pipeline can already be mounted while awaiting placement of the gas meter in the home. The valve is sealed until the gas meter is placed in the home and the gas consumption can be measured and invoiced by the user.

FIG. 1B shows the front side of the gas meter arrangement with the gas meter 2 with the standardized, prescribed distance L between the inlet 4 and the outlet 5 of the gas to be measured. At the gas meter 2 the gas inlet 4 is always on the left and the gas outlet 5 is always on the right. For mounting the gas meter 2 on the main gas line 3, it has been found to be advantageous to use a standard gas meter bracket which can be mounted on a wall in a meter cupboard by means of fixing means, such as a wall support. The gas meter 2 is then suspended from the gas meter bracket 1. This has the advantage that the gas pipeline network can already be laid at any time during the construction of the house, after which a specific gas meter 2 will be mounted by the supplier later, for example after completion of the house and after the residents have chosen an energy supplier. to the gas meter bracket 1. If desired, a number of devices or devices can be supplied as standard on such a gas meter bracket. In the current example of in Figs. 1A, 1B, in addition to the gas lines for gas inlet and gas outlet, a gas head valve 7, a pressure regulator or reducer 8 and a connection adapter (not shown) are prefabricated for the main gas line. Such a pressure regulator 30 reduces, for example, the pressure of the main network from 200 mbar to approximately 30 mbar overpressure. If no reduction of the gas pressure is necessary, for example because the gas in the main gas network has already been brought to use pressure, an overflow cap (not shown) is provided instead of a pressure regulator. With 8 gas meter brackets applied to date, the technician must make adjustments to the bracket on site depending on the position of the! main gas pipe in the meter cupboard. The gas meter bracket 1 according to the invention is therefore provided with an easily adjustable gas inlet line 14 (see FIG.

5 2B, 2C and 3A) so that mounting can now be carried out even faster and more reliably. Fig. 1A shows the input line part 10 which can be easily rotated through 180 ° according to arrow P to the other side of the gas meter bracket 1. In the example of Figs. 1A, 1B, the main gas line 3 is located on the right-hand side of the gas meter bracket 1 and the gas meter 2. The essence of the gas meter bracket according to the invention is that it can be quickly and very easily adjusted on site by the installer to the position of the main gas line. The bracket 1 may or may not be provided with known elements or devices such as a ball valve housing, a pressure regulator or overflow cap and connection couplings for the gas meter 2, the main gas line 3 (connection adapter) and the inner line or with any other technical means known to those skilled in the art. equivalent measure. In the following, it will be explained in more detail how such a quickly adjustable gas meter bracket 1 can be designed.

Fig. 2A shows the gas meter bracket 1 with a small part of the gas supply line part 10 and a ball valve housing 11 provided with a ball valve valve 7. The ball valve is of a known type and principle and will not be described in more detail. Furthermore, the union nuts for the gas inlet 4 and gas outlet 5 for mounting the gas meter are shown. The pipework is enclosed by a housing 12 which contains a front plate or housing part 13.

Fig. 2B shows the pipelines as housed in the housing 12 with the input line 14 and the output line 15. In this exemplary embodiment, the input line 14 is composed of 3 tube parts or input line parts 10,16,17.

The feed line parts are connected to each other by means of gas-tight plug-in couplings 18 and 19. Input pipe part 10 with the plug-in coupling 18 can be rotated 180 ° in the direction of arrow R relative to pipe part 16 and thus quickly adapted to the existing position of the main gas pipe.

9

Fig. 2C shows in cross-section input line 14 with tube parts 10, 16, 17 and plug-in couplings 18, 19 each of which are provided with two O-rings 20, 21. In this example, the two tube parts 16 and 17 are virtually identical for production-technical reasons. Contrary to Fig. 2B, input line part 10 is rotated to the left according to arrow R for coupling to a left-hand main gas line.

Fig. 3A shows in front view input line 14 and rear housing part 22. Input line 14 and input line parts 10, 16, 17 are placed in a recess or compartment 23 provided in the housing part 22. In Figs 5A, 5B the 10 compartments 23 are further detailed shown.

Fig. 3B shows a rear view of input line 14 and front housing part 13. In this exemplary embodiment, the front housing part 13 is provided with recesses or compartments 23 for placement of the input pipe 14. The rear housing part 22 is less high than the front housing part 13 so that there is room for adjusting the gas meter bracket and for rotating the first input line part 10. The front housing part 13 is provided on its upper side with an extension piece or cap 24 which covers and protects the adjustable input line part 10 in its position of use. In addition, this cover can also partially enclose or support the supply line 14 if desired. In Fig. 6C the compartments in the front housing part 13 are shown in more detail, while furthermore in Figs 6A and 6F the recess 24 is visible where the adjustable input line part 10 can be inserted.

Figures 4A - 4F show parts of the inlet line 14 in more detail. Figures 4A and 4B show a multifunctional ball valve housing 11 with coupling part 30 for coupling to the main gas line by means of a suitable connection adapter, recess 31 for placement of the spindle of a ball valve, recess 32 for a pressure measuring nipple, gas outlet 33, gas inlet 34 and a specially designed flange 35 for an optional pressure regulator or overflow cap and an insertion end 36. Preferably the ball including the sealing means is opened through aperture 30 in space 70 from the housing, whereafter the connection adapter is fixedly inserted into opening 30, for example by screwing and gluing, so that the ball is fixedly mounted and protected from contamination. In Fig. 4C, input line part 10 is shown in detail with insertion opening 37 for receiving insertion end 36 of the ball valve housing 11, right angle bend 38 and insertion end 39 for forming the rotatable insertion coupling 18. In this preferred embodiment, the insertion end 36 of the ball valve housing 11 is provided of grooves 40 for mounting sealing means such as O-rings and / or locking means such as a spring ring so that after inserting the insertion end 36 into the insertion opening 37 the two pipe parts form a permanent rotatable connection. This has the advantage that the ball valve housing can be mounted in advance on the gas meter bracket in a dust-free environment, so that a gas-tight coupling can be guaranteed, while the rotatability of the coupling makes it possible to adjust the gas meter bracket easily in the case of a non-perpendicular floor coming main gas pipeline. In this exemplary embodiment, a configuration has been chosen in which each part is mutually coupled by sliding the parts into each other in the direction of the gas flow. Any other configuration of plug-in connections or connections known to those skilled in the art are considered to fall within the inventive concept. In Figs. 4D, 4E, 4F, the three identical input and output line parts 15, 16, 17 are shown in more detail. The three parts 15, 16, 17 are made in this example by post-processing identical hot-pressed copper tubes differently. In this exemplary embodiment, insertion opening 41 of conduit part 16 is coupled to insertion end 39 of input conduit part 10 and insertion end 42 is coupled to insertion opening 43 of input conduit part 17. Standard gas meter coupling end 44 of conduit part 17 serves to connect to the gas input of a gas meter. Output line part 15 is provided with an opening 45 for a pressure measuring nipple and with a standard gas meter coupling end 56 for connection to the gas output of a gas meter. End 57 of pipe part 15 is often provided with wire 59 for connection to the pipe parts of the gas network in the home. In this exemplary embodiment, the number of hot-pressed parts 30 to be manufactured is limited, which entails a cost saving.

Figures 5A - 5F show rear housing part 22 in further detail. The compartments 23 are arranged such that they tightly enclose the input line parts, so that these line parts are locked against undesired release and rotate with respect to each other 11, with the exception of the recess for the adjustable input line part 10, where the mutual rotation of the coupling with input line part 16 is permitted.

Figs 6A - 6F show in more detail the front housing part 13. This housing part and the compartments 23 are formed such that they can be combined with rear housing part 22, wherein the input pipe parts are tightly enclosed by both housing parts. Both housing parts 13, 22 can be provided with connecting means such as snap-in cams 25, positioning cams 26 or openings 27 for screw connections.

In order to improve the bearing capacity of the gas meter bracket and in particular of the bearing pipe parts and also to guide the rotational movement, a number of cams 50, 51, 52, 58 are arranged on the input and output pipe parts. Cam 50 on the adjustable input line part 10 falls into bushing 53 arranged on the inside of the cap 24 of the front housing part 13. (See Figs. 1A, 3B and 6) This prevents sliding of the input line 14 during rotation and adjustment of input line part 10. Cams 51 and 58 of input line parts 16 and 17 respectively fall into recesses 54 and 55. Cam 52 of output line 15 falls into opening 56 in the front housing part 13.

The pipe elements and housing parts can be manufactured from any suitable material, such as e.g. plastic or metal.

7A and 7B show in more detail how rear housing part 22 is placed over a wall bracket 6 mounted on a wall. First of all, a fitter will mount the wall mount 6 on the wall of a meter cupboard near the main gas line. The wall support 6 is provided with known fixing means 25 such as in this exemplary embodiment elongated recesses 64 into which screws can be fitted. The fitter then brings the gas meter bracket feed line into the position of use based on the main gas line position. Subsequently, the gas meter bracket with its rear housing part 22 is slid over the wall support 6 in the direction of arrow S. For this purpose, the rear housing part 22 is provided with a wall support clamp 60. In Fig. 5F, a side view shows the opening 61 between wall support clamp 60 and the wall support clamp 60. rear housing part 22 into which the wall support 6 can be slid. Fig. 7B shows the mounted position of the wall support 6 in the housing part 22. In this 12 exemplary embodiment, the wall support 6 falls into a recess bounded by upper and lower rails 62, 66 of the housing part 22. Preferably, the upper rail 62 is provided with a groove in which protruding edge 63 of the wall support 6 is included.

The coupling member, such as a ball valve housing provided with the correct connection adapter, is then connected to the main gas line. The gas meter bracket can still be adjusted horizontally in the correct position in the direction of the arrows T. The gas meter bracket is then fixed to the wall bracket 6 by means of the wall support clamp, for example with the aid of suitable connecting means. To this end, in this exemplary embodiment, the wall support clamp 60 is provided with openings 65 in which screws can be tightened.

8A and 8B show, in rear view and front view, respectively, an alternative embodiment of the gas meter bracket 100 comprising a housing 112, an adjustable input line part 110 and a wall support 106. In this embodiment, the gas input line 114 is connected from the ball valve housing 111 to the gas input 104 formed by the adjustable inlet line part 110 and the house line parts 118, 119 integrated and received in the housing 112 (see Figs. 11A, 11B) and gas meter coupling 156. The gas outlet line 115 is formed by house line parts 122, 123. Said house line parts replace the loose (hot-pressed) copper pipe sections 15, 16, 17 as shown in FIG.

2B, 4D - 4F. According to the embodiment as shown in Fig. 1A, the input line part 110 can be simply rotated through 180 ° according to arrow P to the other side of the gas meter bracket 100.

In Fig. 9, the housing 112 according to the alternative embodiment is shown in a perspective (bottom view). In this exemplary embodiment, the gas inlet 104 and the gas outlet 105 of the housing are provided with wire 124 into which the gas meter couplings 156 with connection glands are screwed in for forming a connection to the gas inlet and the gas outlet of the gas meter. The gas outlet conduit 115 protrudes outside the front face 113 of the housing 112 so that the adjustment or rotation of inlet conduit part 110 is not impeded and, moreover, the gas outlet conduit 115 can be easily connected to the gas conduit network in The housing 125 is also shown, which covers two core openings 126 of the gas inlet and gas outlet conduit (114, 115) .The housing 112 is preferably made in one piece by means of injection molding. six releasable injection mold cores in the mold to form the conduit sections 118, 119, 129; 122, 128, 123. The core openings 126 for the horizontal pipe parts 118, 128 are then sealed with covers 125, for example by ultrasonically welding or gluing them.

10AA - 10F show housing 112 in more detail with views of all six sides. In the rear view of Fig. 10A, gas inlet line 114 is already visible with (insert) coupling part 116 for connection to inlet line 110 (not shown). Also shown in Figs. 10B - 10F is the gas outlet conduit 115 protruding outside the front face 113 of the housing 112. The (insert) coupling part 116 is provided with cams 117 for the bayonet coupling with the input pipe part 110 and is provided with grooves 140 for mounting sealing means such as O-rings (see also Fig. 11A). In Figs. 10A and 10F, it is shown how covers 125 will close and seal the core openings 126 - created after removing the injection mold cores.

Figures 11A and 11B show the cross-sections A-A and B-B of Figure 10B. From the coupling part 116, first housing line part 118, provided with a right-angled bend, runs to the second housing line part 119 and the gas inlet 104. In this exemplary embodiment, the second housing line part 119 is provided with thread 124 so that a gas meter coupling 156 can be screwed into it. On the other side of the housing 112, gas outlet 105 is shown with housing line part 122 which is also provided with wire 124. In Fig. 11B, in section BB of Fig. 10B, the gas outlet line is shown with gas outlet 105 and first house line part 122. Second house line part 123 is provided with a right-angle bend and extends from the first house pipe part 122 to the end 157, which is often also provided with wire 124 for connection to the pipe parts of the gas network in the house or building.

12A - 12G show different views of the adjustable input conduit part 110 according to the alternative embodiment. In contrast to the embodiment of Fig. 4C, the input line part 110 is provided with insertion openings 137, 139 at both ends. To enable disassembly, but at the same time to prevent undesired release / loosening in the position of use, a bayonet coupling is provided at both ends. To this end, the insertion opening 139 is provided with a recess 130 for receiving the cams 117 of the coupling part 116 of the housing 112 (See Fig. 10D). As a result, the cams 117 can only fall into the recesses 130 when the input line part 110 is in the 90 ° intermediate position, with the insertion opening 137 extending rearwardly. By turning or rotating the feed line part 110, the cams in the groove 131 will be locked behind the edge 132, so that the feed line part 110 in the position of use on the | The left or right side of the gas meter bracket is locked against displacement or release in the vertical direction.

Insertion opening 137 is also provided with a groove 131 and an edge 132 for receiving the insertion end 136 of the ball valve housing 111.

FIG. 13A, 13B show the alternative embodiment 111 of the ball valve housing 11 of FIGS. 4A, 4B provided with a bayonet insertion end 136.

The insertion end is provided with grooves 140 for sealing means such as O-rings and is also provided with cams 141. When the entire gas meter bracket is mounted in a building in the position of use and the seal is arranged on the connection between the main gas line and the gas meter bracket the ball valve housing 111 or the inlet line part cannot be dismantled because the cams 117, 140 cannot be rotated towards the recesses 130. Two cams are used in this exemplary embodiment, but any known bayonet configuration of cams and grooves is considered to fall within the inventive concept.

14A, 14B show in further detail an alternative embodiment of the wall support 106. This wall support 106 can be moved horizontally according to arrow M relative to the housing 112 as shown in Fig. 8A. The wall support 106 can slide behind upper cams 162 and lower cam 160. The wall support 106 is provided with a recess 161 so that the underside of the wall support can be moved along the lower cam 160 and thus the entire wall support 106 can be removed or vice versa. The wall bracket 106 is provided with elongated recesses 164 into which screws or other fasteners can be fitted. In Figs. 8A, 8B it is shown that the recesses 164 of the wall support 106 protrude outside the sides of the housing 112. In addition, fixing screw 127 is shown with which the wall support can be clamped against lower cam 160. As a result, the position of the screws can be easily adjusted. marked on the (rear) wall or the wall mount can even - without marking - be mounted directly by the fitter with a cordless drill or screwdriver. As shown in FIG. 14B, the wall bracket 106 is provided with some corners or bends and with corner recesses 163 so that the upper lugs 162 can slide through the bracket.

10 1030216

Claims (20)

1. Universal gas meter bracket ready for direct installation on site on a main gas line (3) for connecting a gas meter (2) with | standardized distance between input and output connections (4, 5, 104, 105) and from an inner pipe, the main gas pipe (3) being either left or right relative to the bracket (1, 100) and gas meter (2), in essentially consisting of: 10. a coupling member (11, 111), such as a ball valve housing, for mounting on the main gas line (3), - an input line (14, 114) from the coupling member (11, 111) to the gas meter inlet (4,104) and - an output line (15,115) for coupling to the gas meter output (5,105) 15 to the inner line, characterized in that the input line (14, 114) is adjustable between the main gas line (3) and the gas meter input (4, 104), and other such that, irrespective of whether the connection to the main gas line (3) is now to the left or to the right of the bracket (1, 100) and the gas meter (2), using the on-site adjustment of the universal gas meter bracket (1, 100) with respect to the gas meter input (3) z o by means of the adjustability in the position of use of the said input line to be taken, a direct fitting coupling with the main gas line (3) is always established. I Universal gas meter bracket according to claim 1, characterized in that the adjustable feed line (14, 114) comprises at least two mutually connectable feed line parts (10, 16; 110, 118, 119), wherein the adjustability is in the position of use to be taken provided by means allowing mutual rotation of the conduit parts (10, 16; 110, 129) relative to each other. 1030216 Universal gas meter bracket as claimed in claim 2, characterized in that at least one pipe part (10, 110) is provided with a substantially right-angled bend and in which the means that provide for mutual rotation are located in a vertical part of the pipeline in its position of use . 5 Universal gas meter bracket according to claim 3, characterized in that the input pipe parts (10, 16; 110, 129) are coupled by means of a plug-in coupling (18, 116) provided with one or more O-rings (20), wherein the means for the mutual rotatability are realized in the plug-in coupling (18, 116). Universal gas meter bracket according to claim 4, characterized in that a second part of the inlet pipe (14) is formed by two substantially identical pipe sections (16, 17) both provided with a right-angle bend and mutually coupled with the aid of a plug-in coupling (19) which is provided with one or more O-rings (21). Universal gas meter bracket according to claim 4, characterized in that a second part of the input line (114) is formed by one or more housing line parts (118, 119, 129) provided in a housing (112). Universal gas meter bracket according to one of the preceding claims 1-6, characterized in that the gas outlet line (115) is formed by one or more housing line parts (122, 123, 128) provided in a housing (112). Universal gas meter bracket according to one of the preceding claims 1-7, characterized in that the coupling member (11, 111) is formed by a ball valve housing comprising: 5. a vertical pipe part for connection to the main gas line; - a valve member (70) provided with an operable valve, such as a ball valve; - a first vertical house line part that serves as gas outlet (33); - a horizontally extending flange part (35) comprising the gas inlet 10 (34) and the gas outlet (33), for connection to a pressure regulator or overflow cap; - a second housing line part with an angled bend, extending vertically from the gas inlet (34) and subsequently extending horizontally in line with the inlet line (14, 114); 15. a plug-in coupling (36, 37, 136) for connection to the input line (14, 114). Universal gas meter bracket according to claim 8, characterized in that the plug-in coupling (36, 37) between the ball valve housing (11) and input line part 20 (10) is provided with locking means such as a spring ring and a groove for maintaining a permanent swivel connection. Universal gas meter bracket according to any one of the preceding claims 4-7, characterized in that the coupling parts (116, 136, 139) of the input line parts (110, 129) and the ball valve housing (111) are provided with (bayonet) locking means ( 117,130,131,132,141). Universal gas meter bracket according to claim 10, characterized in that the inlet line part (110) is provided at both ends with an insertion opening 30 (137, 139) comprising a recess (130), edge (131) and groove (132) and that the insertion ends (116, 136) are provided with cams (117, 141). A box-shaped substantially closed housing (12) for a universal gas meter bracket (1) according to claims 1 - 5, 8, 9 provided with compartments (23) for enclosing a number of tubular components (10, 15, 16, 17) which each part of the universal gas meter bracket and also provided with a fixing member (6) for fixing the gas meter (2) to a rear wall or similar support, in which housing (12) the ready-to-use position of all pipe components is coupled to the inlet (4) to resp. output (5) of the gas meter (2) and optionally both the left or right-hand position of use for the components 10 can be set or taken. Housing for universal gas meter bracket according to claim 8, characterized in that the housing (12) comprises two mutually connectable housing parts (13, 22), wherein the compartments (23) are provided in at least one housing part. 15 Housing for universal gas meter bracket according to claim 9, characterized in that the compartments (23) lock the plug-in connections (18, 19) against undesired release, but allows the relative rotatability of one or more pipe sections. 20 Box-shaped housing (112) for a universal gas meter bracket (100) according to claims 1 - 7, 10, 11 provided with housing line parts (118, 119, 129) to form a part of the input pipe (114) and / or provided with housing line parts (122, 123, 128) for forming a part of the discharge line 25 (115) and also provided with a fixing member (6,106) for fixing the gas meter (2) to a rear wall or similar support, so that the pipe parts of the housing ( 112) in the operating position, passing gas to the inlet (104) resp. output (105) of the gas meter (2). Housing (112) for universal gas meter bracket according to claim 15, characterized in that the plug-in coupling (116) is integral with the housing. A method of manufacturing a one-piece housing (112) according to claim 15 or 16, comprising the steps of: - injection molding the housing (112), wherein for forming the integrated pipe sections (118, 119, 129); 122, 123, 128) 5 injection mold cores are used. - Removing the injection-molded cores from the pipe sections (118, 119, 129; 122, 123,128) - Mounting the covers (125) on the core openings (126). 18. Combination of a universal gas meter bracket according to any one of the preceding claims 1-11 with a housing according to claims 12-16. A method for mounting a gas meter bracket according to any one of claims 1-7, comprising the following steps: 15. fixing the wall support (6) on a rear wall; - adjust left or right of the gas meter bracket input line to the position of use based on the position of the main gas line; - mounting the prefab gas meter bracket (1) on the wall support (6) by sliding it with the wall support clamp (60) on the wall support (6); - connecting the coupling member (11) such as a ball valve housing of the gas meter bracket to the main gas line (3); - securing, for example with the aid of fasteners, the wall support clamp (60) of the gas meter bracket (1). 20. Method for manufacturing a one-piece gas meter bracket according to claim 11, comprising the following steps: - mounting the inlet pipe (14) by mutually coupling the parts (10, 16, 17); - placing the input line (14) and the output line (15) in a housing part (13, 22); - closing the housing (12) by fitting a second housing part (13, 22) over the pipes (14, 15). 1 0 30 2 1 6