JPH0122564B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention has a device for electrically and remotely transmitting measured values, and a headed screw holding a transparent cap for reading water meter indications is connected to a housing after water meter certification. The small pointer is connected to the large pointer of the totalizing machine through a gear reduction transmission, one gear of this gear reduction transmission is connected to the shaft of the large pointer, and the other gear of this transmission is This invention relates to a water meter, in particular a Woltmann type water meter, in which the pointer is connected to a small pointer shaft.

German Patent Application No. 2 628 789 shows a water meter with a device of this kind,
This water meter has a contact operating body in the form of a magnet attached to the large pointer of a gear mechanism, and a pulse signal generator that is located outside the transparent cap-shaped body and operates without contact is attached to this magnet. , this pulse signal generator is connected to a connecting conductor for remote transmission. When the magnet used as a contact operating body passes by a pulse signal generator configured as a contact in a protective tube for each rotation of the large pointer, the contact of the contact in a protective tube is closed and remote transmission is started. Pulses are supplied to the connecting conductors for this purpose, so that each rotation of the major pointer of the gear mechanism results in one opening and closing.

The object of the present invention is to improve this known device by
The object is to be able to change the number of pulses without intervention in the sealed part of the water meter housing.

In order to solve this problem, according to the invention, at least one contact operating body is provided in the form of a magnet on the gear wheel which is interlocked with the small pointer, and a pocket is provided in the water meter housing that is separate from its sealed part. A shaped chamber is provided, the partition wall of which forms a socket for the plug-in piece connected to the connecting conductor, and a pulse signal generator is provided in the plug-in piece, the pulse signal generator being connected to the plug-in piece. In one position it is within the range of action of one of the magnets, and in the insertion position rotated by 180 DEG about the longitudinal axis of the insert piece, it is within the range of action of the other magnet.

Thus, according to the invention, two types of counting of pulses can be carried out by using a plug-in piece with one type of pulse signal generator and by forming only one chamber in the housing. This is a great advantage, especially in mass-produced water meters of this type. Moreover, the operation is simple, as all you have to do is rotate the insert piece 180 degrees around its vertical axis and replace it.
For example, assuming that the reduction ratio between the small pointer and the large pointer of the gear mechanism is 10:1, the large pointer will rotate once for every 10 revolutions of the small pointer. Therefore, for example, when measuring a large amount of water per unit time or over a long period of time, the rotation of the large pointer generates a pulse and performs remote measurement in units of ^m3 . Water use When measuring the amount of water, for example in the case of filling containers, pulses can be generated by the rotation of the small pointer to provide even more precise remote measurements in units of 0.1 m ³ . In this way, two types of counting, ie, rough measurement and precision measurement, can be performed simply by replacing the insert piece. Note that the number of pulses generated per revolution can also be varied by providing a plurality of magnets instead of one magnet on each gear of the reduction gear.

An exemplary embodiment of a water meter according to the invention with a device for electrically transmitting measured values remotely will be explained in more detail below with reference to the drawings.

1 and 2 show a partially sectional plan view and a partial side view of a water meter according to the present invention, particularly a Waltmann type water meter, which includes a transparent cap-shaped body 1 for reading water meter indications. The holding head screw 2 is connected to the housing 3 after water meter verification and sealed.

The totalizing mechanism then has a large pointer 4 and a small pointer 5, the large pointer 4 indicating m ³ of the liquid to be measured, whereas the small pointer 5 indicates 0.1 m ³ . A reduction ratio of 10:1 is thus created between the small pointer 5 and the large pointer 4, which is obtained by means of a suitable reduction gear 6. Rotating shaft 7 to which gear 8 is attached
is combined with the main pointer 4, and this gear 8 is considered as the final element of the reduction gear 6. A small pointer 5 is attached to a rotating shaft 9 coupled to a gear 10.

The rotational motion transmitted to the rotating shaft 11 by an impeller (not shown) is transmitted to the gear 1 via a pinion 12.
0, and the rotational movement of the gear 10 is transmitted to the rotating shaft 14 to which the pinion 15 is attached via the gear device 13. This pinion 15 meshes with a gear 8 of a reduction gear 6. All these elements are common in this type of water meter and will not be described further.

In the configuration shown in FIGS. 1 and 4 to 6, a contact operating body in the form of a magnet 16 is mounted on the gearwheel 8. In the configuration shown in FIGS. The gearwheel 10 is also provided with a contact in the form of a magnet 17. It is within the scope of the invention to vary the number of these contacting bodies as appropriate.

A pocket-like chamber, designated 18 (FIG. 1), is provided within the water meter housing 3 and is separated from the sealed portion thereof.
The partition wall 19 of this chamber 18 is then used as a socket for a plug-in piece 20 shown in FIG. 3 of the drawings. This plug-in piece 20 is connected to a connecting line 21 for the remote transmission of measured values.

The cross section of the chamber 18 and the insert piece 20 is constructed such that the longitudinal axis H and the transverse axis Q (FIG. 2) are axes of symmetry. In the illustrated configuration, the chamber 18 and the insert piece 20 have a rectangular cross section. However, the invention is not limited to this particular configuration. The cross-sections of these two parts 18 and 20 may be circular or oval, for example, as long as the longitudinal axis H and the transverse axis Q are symmetry axes. This firstly provides the possibility that the plug-in piece 20 can be inserted into the chamber 18 in one or more different operating positions, which will be explained in more detail below.

A pulse signal generator 22 is provided in the plug-in piece 20 and is in the range of action of the magnet 16 at one position of the plug-in piece 20, with respect to the longitudinal axis L (FIG. 3).
The position of the insert piece rotated by 180° around the magnet 17 is such that it is within the range of action of the other magnet 17.

As can be seen from Figure 3 of the drawings, the insert piece 20
has a recess 23 on the side remote from the connecting conductor 21, which recess 23 has the shape of a substantially blunt wedge in plan view, the pulse signal generator 2
2 is provided in the range of one wedge surface 23a.

The pulse signal generator 22 can be configured as a mechanical, inductive, capacitive or photoelectric pulse signal generator. In the configuration shown in the figure, the pulse signal generator 22 is configured as a well-known protective tube contact. This type of contact in a protective tube consists of a protective tube provided with two opening/closing tongues, which are moved into the open/close position when approached by a contact operating device, such as a magnet. These two opening/closing tongues are connected to the connecting wire 21 via connecting portions 24, 25 (FIG. 3).

The operation of the water meter according to the invention with a device for electrically transmitting measured values remotely is as follows. First, it is assumed that the insert piece 20 is inserted into the chamber 18 in a position such that the pulse signal generator 22 assumes the position shown in FIG. In this position, the pulse signal generator 22 is within the action range of only the magnet 16, so that the magnet 17 has little influence on the pulse signal generator 22. moreover,
Assuming that only one magnet 16 is placed on the gearwheel 8, one rotation of the major pointer 4 and therefore the gearwheel 8 means that the magnet 16 is in close proximity to both opening and closing tabs of the pulse signal generator 22. When reached, it produces one opening/closing pulse each time.

If the number of pulses is to be varied, the plug-in piece 20 is withdrawn from the pocket-shaped chamber 18, the plug-in piece 20 is rotated through 180° about its longitudinal axis L, and then again as shown in FIG. 6 of the drawings. Insertion into chamber 18 is sufficient. In this second operating position of the plug-in piece 20, the pulse signal generator 22 is within the action range of the magnet 17, and the magnet 16 has no influence on the pulse signal generator 22. If the rotational speed of gear 10 is ten times greater than the rotational speed of gearwheel 8, a corresponding increase in the switching pulses is obtained.

The number of opening/closing pulses is the magnet 1 on gear 8 or 10.
6 or 17, or also by suitably varying the number of pulse signal generators 22 in the plug-in piece 20 and/or the number of positions of the plug-in piece 20 in the chamber 18. be able to.

[Brief explanation of drawings]

FIG. 1 is a partial cross-sectional plan view of a water meter according to the present invention, FIG. 2 is a partial side view as seen from the direction of arrow A in FIG. 1, and FIG. 3 shows measured values in the water meter according to the present invention. FIG. 4 is a plan view of the plug-in piece of the device for electrically transmitting measured values remotely; FIG. FIG. 6 shows a partially sectional side view along the line - in FIG. 4 of a water meter according to the invention with the plug in position; FIG. FIG. 3 is a partial side view of the water meter. 1... Transparent cap-shaped body, 2... Headed screw, 3...
Housing, 4...Large pointer, 5...Small pointer, 6...
...Gear reduction transmission, 7, 9, 11...Shaft, 8,
10... Gear, 13... Gear device, 16, 17...
...Magnet, 18...Room, 19...Division wall, 20...
Plug-in piece, 21... Connection conductor, 22... Pulse signal generator, L... Vertical axis.

Claims (1)

[Claims] 1. A headed screw holding a transparent cap-shaped body for reading the water meter indication is connected to the housing after the water meter verification and sealed, and a small pointer is connected to the integrating mechanism via a gear reduction transmission. one gear of this gear reduction transmission is coupled with the large pointer shaft, and the other gear of this transmission is coupled with the small pointer shaft,
At least one contact operating body in the form of a magnet is provided on a gear that is interlocked with a large pointer, and a pulse signal generator that can interact with the magnet without contact is provided to remotely transmit measured values to the integrating mechanism. In the water meter connected to the connecting conductor, at least one contact actuator in the form of a magnet 17 is provided on the gear wheel 10 which is interlocked with the small pointer 5 and is separated from its sealed part in the water meter housing 3. A pocket-shaped chamber 18 is provided, the partition wall 19 of which forms a socket for a plug-in piece 20 connected to a connecting conductor 21 and for a pulse signal generator 2.
2 is provided in the plug-in piece 20, the pulse signal generator 22 being within the action range of one of the magnets 16 at one position of the plug-in piece 20 and rotated by 180° around the longitudinal axis L of the plug-in piece 20. A water meter with a device for electrically transmitting measured values remotely, characterized in that in the plug-in position it is within the range of action of the other magnet 17. 2. The cross section of the insert piece 20 and the chamber 18 is formed such that the vertical axis H and the horizontal axis Q of the insert piece 20 and the chamber 18 are axes of symmetry. Water meter listed. 3. Water meter according to claim 1, characterized in that the plug-in piece 20 has a recess 23 on the side remote from the connecting conductor 21. 4. Claim 3, characterized in that the recess 23 has the shape of a substantially pointless wedge in plan view, and the pulse signal generator 22 is provided in the area of one wedge surface 23a. Water meter listed. 5. The water meter according to claim 1, wherein the pulse signal generator 22 is a mechanical, inductive, capacitive or photoelectric pulse signal generator. 6. The water meter according to claim 5, wherein the pulse signal generator 22 is configured as a contact in a protective tube.