DE102005051159B4 - Use of a communication module for insertion in a counter and communication module - Google Patents

Abstract

Proper use of a communication module (5) for insertion into a meter (1) from a set of meters of different types, the different meter types including liquid meters, gas meters, heat meters and energy meters, and each meter (1) from the set of meters being one of the Determination of a meter type-specific measuring device (3) with a housing (6) and a meter housing (2), via which the meter can be inserted into a line carrying the medium to be measured, serving an information value flowing in a liquid or gaseous medium and wherein a standardized recess (7) for receiving the communication module (5) is provided on each housing (6), the communication module (5) having a standardized housing (8) adapted in its shape according to the standardized recess shape, and wherein the communication module (5) communicates with the measuring device (3) during operation and a standardized, meter type-specific configurable control device (14) with assigned transmission means (12) for transmitting the meter-type-specific information values to a ...

Description

The invention relates to the intended use of a communication module for insertion in a counter from a set of counters of different types and a communication module.

Depending on the type of medium, different counters are used to determine medium-related information values, usually consumption values. In the case of a liquid medium such as water is a water meter, in the case of a gas, such as heating gas to a gas meter, also still heat or energy meters are mentioned. Common to all meters is a housing with a measuring device, which housing is placed in the medium-carrying line. The counter can be of various types, for example in the form of an impeller or the like.

With the measuring device, the respective information value is determined or calculated. Newer meters have a communication module integrated into the meter. However, it is also known to set up a separate communication module on a meter, with the communication modules differing from meter type to meter type in terms of their external geometry and / or the communication interface with the meter or the metering device. Also, the type of communication varies from meter type to meter type, for example, communication in the form of ISM radio, M-bus or L-bus.

Overall, therefore, type-dependent different designs are given in hitherto existing counters, as well as different communication modules that vary from type to type with respect to their geometry and type or mode of communication. This is disadvantageous in terms of production and storage costs as well as logistics. Also, the assembly, commissioning and subsequent assembly of each type are different.

DE 299 24 322 U1 relates to a communication-capable flow meter for liquids. On the housing of the measuring device, a recess is provided, into which a scanning module can be used with a suitably sized housing for upgrading the counter. The scanning module comprises a sensor device for scanning the signals of a transmitter element, a control element, for example in the form of a microprocessor, and a device for data output or data transmission. The latter may be a radio device, an M-bus connection and an optoelectronic data transfer device or a combination thereof.

DE 196 32 575 A1 discloses a flow meter that can be manufactured with the least possible additional effort compared to normal water meters without affecting its readability with a transmitting device and optionally retrofitted quickly. For this purpose, on the one hand, a standardized display device is used, for example in the form of a roller counter, which is provided in the counter housing. Furthermore, adjacent to a transmitting device is used, which has a standardized transmission module, which can also be used for different applications.

A volume counter for measuring a volume of liquid is placed in DE 102 14 418 A1 disclosed. The meter housing has two recesses whose shape and size are adapted to that of a signal pickup and a transmission module. The signal sensor and the transmission module are located on a cover which can be plugged onto the meter housing, which closes on the top side. There, on the one hand, the penetration of dirt particles into the region of the face of the counter housing is to be prevented, on the other hand, the interchangeability of the measuring module can be ensured in a simple manner.

WO 00/58738 A1 describes a scanning and transmitting device which is set as an annular component on the transparent housing cover of a standard measuring device and scans the local measuring device. The information is transmitted over a telephone line. The ring is securely and tightly fixed to the cylindrical housing via appropriate means.

The invention is therefore based on the problem of specifying an improved arrangement with respect to manufacture and assembly.

To solve this problem, a use with the features of claim 1 and a communication module with the features of claim 7 are provided.

In the inventive use in a device or a system comprising counters of different types, a standardized recess is provided on each housing, that is, the housing-side recess is always the same regardless of the type. According to the type regardless is always the same housing of a separate, thus coupled communication module, the housing of the recess shape is adapted, therefore it can be used in this form-fitting. Not only in terms of housing Furthermore, according to the invention, the control device of the communication module is also standardized insofar as counter-independent each control device is the same but can be configured in a count-type-specific manner. In other words, there is standardization here too, but this allows counter type-specific adaptability. The control device is assigned a corresponding transmission means which can be controlled via the control device, depending on the desired transmission mode, for the information values determined by the meter for a specific purpose, to an external detection device. Depending on whether a radio or bus communication is given, this is set accordingly by configuration of the control device, the transmission means is generally suitable for all types of communication.

When used according to the invention in the device or the system, the same communication modules can consequently be used for all meter types. Since significantly larger numbers of pieces are therefore to be produced by this communication module, since it is to be used for all types of meter, ultimately resulting in significantly lower production costs, the entire storage is simplified. The same applies to the assembly and commissioning. Retrofitting or changing the communication mode is readily possible due to the configurability. The respective configuration is carried out by the installer, who configures the control device locally in the knowledge of the type of meter on which the respective communication module is arranged, that is, sets it to be a water meter or a gas meter or an energy meter. Because of the software stored on the control device side, the communication module is now given the type of data to be recorded, what is to be determined therewith and how the data is to be transmitted.

It is furthermore particularly advantageous if the measuring device and the communication module communicate with one another via a standardized, wireless communication interface. In other words, a standardized basic type is used here too, the components of which are standardized both on the meter side and on the communication module side, and therefore are always the same. The communication interface is preferably a capacitive interface, for which purpose capacitive transmission means are provided on the measuring device and the communication module. These capacitive transmission means allow secure detection or transmission of the information determined on the counter to the communication module, wherein this transmission is also extremely susceptible to interference due to the capacitive mode of operation. The capacitive transmission means are each arranged substantially immediately behind the respective housing wall and positioned in the mounting position directly opposite each other. That is, the respective capacitive transmission means are encapsulated by the respective housing, but nevertheless arranged so that they are always positioned correctly and a correct transmission enabling relative to each other due to the standardized housing form or positive connection.

With regard to the concrete determination of the information value to be transmitted, two different embodiments are conceivable. According to a first alternative, the meter type-specific information values are determined by the measuring device itself. This is the case, for example, with a heat or energy meter or an electronic water meter. The particular information value, that is to say, for example, energy measurement or arithmetic value or volume measurement or arithmetic value, is transmitted directly via the communication interface to the communication module, which transmits the corresponding value to the external site. Alternatively, the information values can also be determined by the control device of the communication module on the basis of measured values received by the measuring device. This is the case, for example, with a water meter. There, the revolutions of an impeller are determined via a capacitively sampled modulator disk. The configuration can now be such that this modulator disk, which has an electrically conductive partial surface, forms part of the communication interface, that is to say it is therefore arranged directly on the housing wall side. In the communication module, the second part of the capacitive communication interface is arranged, via which the revolutions of the counter-side modulator disc are detected. From the number of these revolutions, the communication module or its control device determines the volume and transmits the result of the determination. Here, too, it is an interface standardized with respect to the capacitive mode of operation, although on the counter side, another structure comprising the rotating modulator disk is provided, compared to the configuration of the counter-side interface parts with different types of counters.

As described, the control device is configurable and designed with its associated transmission means for wireless or line-bound transmission of the information values, in particular via a communication bus.

Further advantages, features and details of the invention will become apparent from the embodiment described below and with reference to the drawings. Showing:

1 a side view of a counter with attached communication module,

2 a view of the communication module 2 .

3 the measuring device of the meter with the communication module removed,

4 a perspective view of the communication module,

5 a sectional view through the measuring device with attached communication module in the direction of the line VV in 2 , and

6 a perspective view of the counter 1 with removed housing cover of the communication module.

1 shows any counter 1 as part of a device or a system, wherein the counter may be a water meter or a heat meter or the like. The meter has a meter housing 2 , via which it can be used in a leading the medium to be measured line. At the meter housing 2 is a measuring device 3 Usually arranged detachably, which carries out the measured value detection, for example, determines the flow volume and, for example, to an electronic display 4 displays. Also provided is a communication module 5 which is used to transmit the medium-specific information values to an external receiving device.

3 shows the measuring device 3 and the communication module removed from this 5 , The measuring device 3 has a housing 6 on, which is a defined in their geometry, standardized recess 7 which is stepped here. Also the communication module 5 has a housing 8th on, of which when putting on the measuring device 3 these adjacent sides corresponding to the shape of the recess 7 are shaped, so that there is a positive connection. The communication module 5 So it is in the recess 7 used and not shown in detail locking means such as locking or clamping means or the like with the measuring device 3 connected.

In addition to the standardized recess and the standardized shape of the housing 8th the communication module is also a standardized communication interface 9 provided, which is a capacitive communication interface. These are at the measuring device 3 as well as on the communication module 8th capacitive transmission means 10 . 11 provided, which in the example shown are circular metal surfaces. Both transmission means 10 . 11 are protected by thin housing walls. As a result of the standardized design and corresponding shape adaptation of the respective housing is on the one hand a defined positioning of the communication module 8th at the measuring device 3 On the other hand, this ensures that the transmission means 10 . 11 also directly directly and exactly positioned opposite each other. About this capacitive communication interface 9 a data exchange takes place. About them, for example, on the part of the measuring device 3 self-determined media-specific information values to the communication module 5 transmit this then via appropriate further transmission means such as a radio antenna 12 transmits to an external detection device.

Regardless of the meter type used, the configuration of the recess 7 on the housing 6 the measuring device 3 as well as the communication module 11 standardized overall, so the same everywhere. The communication module 11 itself is in its operation parameterized or configurable, that is, it can be any communication module placed on any counter or any measuring device and then the communication module according to the actual meter type to which it is assigned, configured and his work or Operating mode can be adjusted. This is, see 2 , an optical interface 13 provided via the factory or on the assembly side, the parameterization or configuration can be made. The communication module 5 has a correspondingly configurable control device 14 , preferably a suitable microprocessor, in which the counter type specific software modules of all integrated or available in the device meter types is stored, wherein in the context of the configuration, the corresponding software module for the respective meter type is selected. Thus, there are standardized modules on the part of the communication module, both with regard to the mechanics and the electronics, which merely have to be configured in their mode of operation.

As 5 shows, has the measuring device 3 in the example shown on its own battery 15 and an associated circuit board 16 with corresponding, not shown in detail electronic components, which serve in the example shown to determine the media-related information values. The interface-side transmission means 10 , which consist of two concentric circular surfaces as described above, are via a conductive connection 17 , z. B. a conductive rubber, with the circuit board 16 or the or the corresponding components contacted, so that the determined information values to the transmission means 10 can be given. 5 also shows the housing wall 18 that the transmission means 10 covers.

Correspondingly, in the communication module 5 a circuit board 19 provided on the as described the control device 14 is arranged. At the bottom of the circuit board is the transmission means 11 , also covered by a housing wall 20 , Obviously, this means of transmission lies 11 however, directly to the means of transmission 10 so that a capacitive data transmission can take place.

The over the capacitive interface 9 transmitted data as described the controller 14 given, for example, these caches and for data transmission to the transmission means, here for example the radio antenna 12 , what gives a battery for the power supply 21 is provided. It should be noted at this point that, of course, other transmission means may be provided in the communication module, such as appropriate connections for connection to a communication bus or the like, if the entire system with all meter types basically provides this type of transmission.

Furthermore, the embodiment may also be such that on the part of the measuring device 3 the information value to be transmitted to the external detection device is not itself determined, but only calculation values are recorded which are then transmitted via the capacitive communication interface 9 to the communication module 5 or its control device 14 are given, which makes the actual calculation of the information values, which are then given via the transmission means to the external detection device.

Overall, the device or the system comprising a wide variety of meter types with standardized housings or housing sections with respect to the respective measuring device as well as standardized communication modules, the possibility of providing only one type of communication module, which is as described in terms of his working and operating mode counter type specific, extremely flexible and inexpensive to build a finished counter.

Claims (7)

Intended use of a communication module ( 5 ) for insertion in a counter ( 1 ) of a set of meters of different types, the different meter types comprising liquid meters, gas meters, heat meters and energy meters, and each meter ( 1 ) from the set of counters, a measuring device serving to determine a meter-type-specific information value related to an information value relating to a liquid or gaseous medium flowing in a conduit ( 3 ) with a housing ( 6 ) and a meter housing ( 2 ), via which the counter can be inserted into a line carrying the medium to be measured, and wherein on each housing ( 6 ) a standardized recess ( 7 ) for receiving the communication module ( 5 ) is provided, wherein the communication module ( 5 ) a standardized, in its form according to the standardized recess shape adapted housing ( 8th ), and wherein the communication module ( 5 ) in operation with the measuring device ( 3 ) and a standardized, counter type-specific configurable controller ( 14 ) with associated transmission means ( 12 ) for transmitting the counter type-specific information values to an external detection device, and wherein the communication module ( 5 ) is standardized both in terms of its mechanics and its electronics and is only to be configured in its mode of operation, and wherein in the control device designed as a microprocessor ( 14 ) meter-type-specific software modules are stored for all meter types contained in the set of counters and within the scope of the configuration of the communication module ( 5 ) the appropriate software module for the respective meter type is selected. Use according to claim 1, characterized in that the measuring device ( 3 ) and the communication module ( 5 ) via a standardized, wireless communication interface ( 9 ) communicate with each other. Use according to claim 2, characterized in that the communication interface ( 9 ) is a capacitive interface, to which at the measuring device ( 3 ) and the communication module ( 5 ) capacitive transmission means ( 10 . 11 ) are provided. Use according to claim 3, characterized in that the capacitive transmission means ( 10 . 11 ) each directly behind the respective housing wall ( 18 . 20 ) are arranged and in the mounting position lie directly opposite each other. Use according to one of the preceding claims, characterized in that the meter-type-specific information values on the part of the measuring device ( 3 ) or that the counter type-specific information values are determined by the control device ( 14 ) of Communication module ( 5 ) based on the measuring device ( 3 ) received measured values are determined. Use according to one of the preceding claims, characterized in that the control device ( 14 ) with associated transmission means ( 12 ) of the communication module ( 5 ) is designed for wireless or line-bound transmission of the information values, in particular via a communication bus. Communication module for insertion in a counter ( 1 ) of a set of meters of different types, the different meter types comprising liquid meters, gas meters, heat meters and energy meters, and each meter ( 1 ) from the set of counters, a measuring device serving to determine a meter-type-specific information value related to an information value relating to a liquid or gaseous medium flowing in a conduit ( 3 ) with a housing ( 6 ) and a meter housing ( 2 ), via which the counter can be inserted into a line carrying the medium to be measured, and wherein on each housing ( 6 ) a standardized recess ( 7 ) for receiving the communication module ( 5 ) is provided, wherein the communication module ( 5 ) a standardized, in its form according to the standardized recess shape adapted housing ( 8th ), and wherein the communication module ( 5 ) in operation with the measuring device ( 3 ) and a standardized, counter type-specific configurable controller ( 14 ) with associated transmission means ( 12 ) for transmitting the counter type-specific information values to an external detection device, and wherein the communication module ( 5 ) is standardized both in terms of its mechanics and its electronics and is only to be configured in its mode of operation, and wherein in the control device designed as a microprocessor ( 14 ) meter type specific software modules are stored for all meter types contained in the set of counters.

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