CZ34787U1 - Integrated system for remotely reading liquid or gas consumption with safety control of the supply of these media - Google Patents

Description

In the registration procedure, the Industrial Property Office does not determine whether the subject of the utility model meets the conditions for eligibility for protection pursuant to Section 1 of Act no. E. 478/1992 Sb.

CZ 34787 UI

Integrated system for remote reading of liquid or gas consumption with safety control of the supply of these media

Field of technology

The technical solution relates to a system mounted on the supply of liquid or gas, most often, though not exclusively, on the supply of water from the distribution network to the point of consumption, ie. to the place of consumption. It is a system showing the ability to measure consumption and at the same time the ability to automatically close and / or open the supply of liquids and gases, especially, but not exclusively, water, both with remote access and control, including automatic safety shut-off in case of accidental liquid leakage or gases at the sampling point.

Prior art

At present, devices for measuring water consumption are known, most often of the water meter type. Water meters are designed with a flooded or dry meter chamber, such as induction flow meters, etc., while the reading of known water meters can be performed not only directly visually according to the current meter reading, but also remotely, by wirelessly transmitting the meter to the reading remote unit.

At the same time, a device is known for automatic safety disconnection of the supply of liquids and gases in a situation where a fault condition has occurred at the sampling point, which may typically be an accident of distribution or sampling device at the sampling point, resp. object.

If it is desired not only to automatically close the supply of liquids and gases, but also remote signaling of the state of closure or opening, it is necessary to equip the security closure system with a transmitting device or an adequately functioning device for connection to a computer, internet or telephone network. This means the use of two independent transmitting devices and two meters in current systems when combining a device at the inlet of a liquid or gas, for example water, to a sampling point comprising both a safety closure and a meter, which is both economically disadvantageous and technically unnecessarily complicated.

The task of the presented technical solution therefore seems to be to create a system where for this system it would be possible to perform remote data transmission with a single transmission device and one meter, and if possible with the implementation of feedback.

The essence of the technical solution

These disadvantages are substantially solved and the indicated task is fulfilled in an integrated system for remote reading of liquid and gas consumption with safety control of the supply of such a medium, created in accordance with the present technical solution, where the system comprises a motor-operated shut-off valve at the inlet. a meter, eg a water meter, connected to it or in front of it in the direction of the medium flow, with an electronic flow and consumption status sensor, and where the essence lies in the fact that the motor drive and the meter are connected by communication links to the communication and control unit to which it is further connected a transmission block adapted to communicate with a remote monitoring and control unit. When a motor-driven valve is inserted in front of the meter, the system is thus protected against unwanted leaks of liquids or gases from the meter itself, and not only from wiring or appliances. Preferably, the control and communication unit is connected simultaneously to a plurality of meters and motor drives, while the transmission block or base is connected simultaneously to a plurality of control and communication units. It is furthermore advantageous if the communication of the control and communication unit with the remote monitoring and control unit is designed as a wireless connection based on the Internet or a mobile telephone. Communication can

CZ 34787 UI can of course also take place on the basis of a Bluetooth or WIFI connection, or also on the basis of a general shortwave transmitter and receiver system or, less preferably, on the basis of a cable connection. However, the use of the Internet enables communication without distance restrictions and informing about the state of consumption, the state of operation from the point of view of a faulty or fault-free situation, or even remote control of the valve, resp. its closure even in the fault-free state of the supplied consumption point, if the communication between the motor drive and the remote monitoring and control unit is adjusted as bidirectional. Furthermore, it may be advantageous if both the electronic circuit and the unit corresponding to the control and communication unit are already part of the electronic equipment of the meters, for example a water meter, with remote reading. This is advantageous and technically possible because water meters adapted for remote reading are now more often equipped with an electronic unit than safety closures, which often operate on their own only on the principle of automatic closing at excessive flow, corresponding to an emergency rather than higher proper consumption. . It is also advantageous if a remote monitoring and control unit is used, where the communication between the units at the point of consumption and this remote monitoring and control unit is arranged to be bidirectional. Thus, not only can monitoring of the consumption status and the status of the fault situation of the operation be achieved, but also the shut-off valve can be remotely controlled as needed, even outside the emergency situation. It is particularly advantageous if the control and communication unit is connected to a remote monitoring and control unit based on an Internet or radio connection, where the control unit is connected to a remote monitoring and control unit in the form of a computer or mobile phone equipped with a client application and connected to remote communication. via a server application embedded in the server, cooperating with the computer with the client application. Preferably, in the latter variant, the control and monitoring unit and the server are located in a remote monitoring and control object. Such a combination, which just forms an integrated system according to the present technical solution, appears to be particularly advantageous, since it can be created mainly on the basis of existing and commonly available technical elements.

It is also advantageous if the control and communication unit comprises an autonomous control software block adapted to control the system in the event of a connection failure with the remote control unit, using stored parameters and limits last set by the user before the connection failure. It should be emphasized that, on the basis of the presently preferred physical embodiment mentioned here, the system can function as autonomous, even in the event of a communication, typically Internet, connection, where it can be software-assured to remain last in the transmitter connected to the shut-off valve. the configuration of the limits is set by the user himself, typically via a web application, so that the shut-off valve adjusts according to these limits even in the event of a connection failure. When the connection is re-established, the user can change the limit settings again or close or open the valve. This valve may or may not have its own power source. It depends on the energy consumption and the importance of reducing the risk of external power failure. If an internal power supply in the form of a battery is installed, then a report on the low state of charge of the internal power supply can be provided by software, either if this internal power supply is the only power supply or operation only maintained in a charged state by an external source, which in such a configuration is the basic energy source in normal operation.

The overall goal is to create an integrated system, which can not only perform remote reading of the meter, most often, but not exclusively, water meter, but also monitor the flow of liquid or gas, such as water, and automatically close the flow in an emergency and optionally with remote access also outside emergency situations.

Explanation of drawings

The technical solution is further described and explained in more detail on an exemplary embodiment, also with the aid of the accompanying drawings, in which FIG. 1 shows a block diagram of an integrated system according to the present technical solution, in an embodiment with one communication and control unit and one communication block, and Fig. 2 is an analogous diagram, now lit by partial control and communication units and with several partial communication blocks and interconnected via

CZ 34787 UI collection unit for output communication block.

Examples of technical solution

Example 1

An integrated system for remote consumption reading with safety control of the liquid or gas supply is exemplified here in the following embodiment, for measuring the parameters of the medium in the form of water. The system here comprises a shut-off valve 11 driven by a motor-driven m at the inlet to the sampling object 10 and a meter 12 arranged here in the direction of medium flow, here a water meter, with an electronic flow and water withdrawal sensor, behind the meter 12 in this sampling object It is essential that the motor drive 111 of the valve 11 and the meter 12 are connected by communication, here wired, connections to the control and communication unit 14, to which a single output transmission block 141 is further connected, adapted for communication with Preferably, an embodiment is used here where the communication of the control and communication unit 14 with the remote monitoring and control unit 22 is established as an Internet-based wireless connection. Communication based on a mobile phone network is also generally well used. Of course, communication can also take place on the basis of a Bluetooth or WIFI connection, or on the basis of a general shortwave transmitter and receiver system. However, the use of the Internet mentioned here by way of example enables communication without distance limitation and informing about the state of consumption, the state of operation from the point of view of a fault or fault-free situation, possibly also remote control of the shut-off valve 11, resp. its closure even in the fault-free state of the supplied sampling point 13, if the communication between the motor drive kil. of the shut-off valve 11 and the remote monitoring and control unit 22 is arranged to be bidirectional. Furthermore, in practice, the circuit corresponding to the control and communication unit 14 is in this exemplary embodiment part of the electronic equipment of the meter 12 with remote reading. This is also advantageous here, because in particular water meters adapted for remote reading are now more often equipped with an electronic unit than safety closures, which often operate on their own only on the principle of automatic closing at excessive flow, corresponding to an emergency rather than just higher consumption. Also, a remote monitoring and control unit 22 is preferably used here, where the communication between the control and communication unit 14 in the supply object 10 and this remote monitoring and control unit 22 is arranged to be bidirectional. Thus, not only can the monitoring state and the state of the operating fault situation be monitored here, but also the shut-off valve 11 can be remotely controlled as required, even outside an emergency situation. For example, the control and communication unit 14 is preferably connected to a remote monitoring and control unit 22 based on an Internet connection, where the control and communication unit 14 is connected to a remote monitoring and control unit 22 in the form of a computer equipped with a client application and connected to a remote communication via a server application embedded in the server 21, cooperating with the monitoring and control unit 22 in the form of a computer with the client application. Here, the monitoring and control unit 22 and the server 21 are located in a remote monitoring and control object 20. Such a combination, which just forms an integrated system according to the present technical solution, appears to be particularly advantageous in this exemplary embodiment, since it can be created mainly on the basis of existing ones. and commonly available technical elements. Overall, in particular here, in this exemplary embodiment, an integrated system is achieved, by means of which it is possible not only to remotely read the meter, here the water meter, but also to monitor the fluid flow, here water, and automatically close the flow in an emergency and close optional with remote access also outside emergency situations.

Example 2

In principle, this is an analogous scheme as in Example 1, but with the difference that several control and communication units 14 are installed here, and for simplicity, the number of two of these units 14 is chosen. Each sub-transmission block 1411 is assigned to each of them. which here

An example UI communicates via a WIFI connection, via a collection unit 100, with a common output transmission block 141, through which, as in Example 1, data is then transmitted to a remote monitoring and control object 20.

Industrial applicability

The device according to the presented technical solution can be used for distribution of liquids or gases, preferably liquids, such as water, especially to individual consumption points or objects, where it is necessary to measure their consumption and also provide security against their accidental leakage, and possibly allow remote control. shut-off valve at the liquid or gas inlet to the sampling point. In general, the use in practice can be very wide, from housing, through agriculture, typically for irrigation, for stables, etc., to industry.

Claims (7)

CLAIMS FOR PROTECTION An integrated system for remote reading of consumption of liquids or gases with safety control of the supply of these media, comprising at the entrance to the sampling object (10) a shut-off valve (11) driven by a motor drive (111) and in front of or behind it, in the flow direction included meter (12) with electronic flow and consumption status sensor, characterized in that the motor drive (111) of the shut-off valve (11) and the meter (12) are connected by communication links to the control and communication unit (14), to which it is further connected an output transmission block (141) adapted to communicate with the remote monitoring and control unit (22). Integrated system according to Claim 1, characterized in that the control and communication unit (14) is connected simultaneously to a plurality of meters (12) and motor drives (111) of the shut-off valves (11), the output transmission block (141) being collecting units (100), connected simultaneously with a plurality of control and communication units (14) via sub-transmission blocks (1411). Integrated system according to Claim 1 or 2, characterized in that the communication of the control and communication unit (14) with the remote monitoring and control unit (22) is designed as an Internet-based wireless connection or on the basis of a mobile telephone network. Integrated system according to one of Claims 1 to 3, characterized in that a remote monitoring and control unit (22) is used, wherein the communication between the control and communication unit or units (14) in the supply object (10) and this remote monitoring and control unit. the control unit (22) is arranged as bidirectional. Integrated system according to one of Claims 2 to 4, characterized in that the communication and control unit (14) is connected to a remote monitoring and control unit (22) based on an Internet connection, the control and communication unit (14) being connected to a remote monitoring and control unit (22) in the form of a computer or mobile telephone equipped with a client application and connected to remote communication via a server application embedded in the server (21), cooperating with a monitoring and control unit (22) in the form of a client application computer. Integrated system according to one of Claims 1 to 5, characterized in that the monitoring and control unit (22) and the server (21) are located in a remote monitoring and control object (20). Integrated system according to one of Claims 1 to 6, characterized in that the communication and control unit (14) comprises an autonomous control software block adapted to control the system in the event of a connection failure with the monitoring and control unit (22) in the remote monitoring and control unit. object (20), using the stored parameters and limits last set by the user before the connection failed.