FR2646234A1 - Method and autonomous device for remotely reading and interrupting the consumption of fluids - Google Patents

Abstract

The subject of the present invention is a method and autonomous device for remotely reading and interrupting the consumption of fluids. One of the main applications is the remote reading of water consumption in homes, without an external energy supply and with remote control cutting of this supply. The device comprises a turbine 5 which drives a generator whose current supplies, on the one hand, a battery 10 and the measurement of whose current allows counting of pulses and therefore metering of the consumption. Furthermore, a valve 7 can be opened or closed by the action of an electromagnet 18 remotely controlled by an electronic circuit 11 and the said battery 10. Thus, the company managing and distributing the fluid 17 can remotely and on demand read the consumption, using any data transmission system, and control the opening and closing of the said valve 7.

Description

Method and autonomous device for lifting and interrupting
remote consumption of fluids.

DESCRIPTION
The present invention relates to an autonomous method and device for lifting and interrupting the remote consumption of fluids.

 The technical sector of the invention is the manufacture of meters for consumption of any fluid including a device for interrupting the supply of this fluid.

 One of the main applications of the invention is the remote reading of water consumption in private homes without external power supply, with the possibility of cutting the power supply by remote control.

 Many types of meters are in fact known which are suitable for measuring the flow rate of the fluid concerned. We are more particularly interested in those installed in housing or in factories and donations the essential aim is to allow the companies distributing this fluid, to record at regular intervals the consumption of users, occupying said housing or said factories, and bill them for the consumption recorded between two statements.

 These meters all include a measurement sensor which reacts to instantaneous consumption and which transmits the value thereof to a totalizer-integrator which then translates the accumulated amount on a digital, mechanical or digital display. These sensors must be placed just before the stations or the networks of use for each consumer. They are therefore scattered and very numerous and it is necessary that employees of the distributing companies move around, identify and visually collect the figures from the dials of the displays, transmit them on cards and bring them back to a management center which establishes the invoices. corresponding individual data by difference with previous statements.

 This meter reading method is the most widespread, but it is impractical, especially for meters located inside the premises and often difficult to access, requiring moreover, the presence of the occupant which must be prevented in advance or for those distributed and dispersed in rural areas, including very distant from each other. Thus, this process requires travel and the employment of a lot of staff; it is a source of error with each recopy of information, generates delays in invoicing, some of which unpaid do not cause sanctions for several months because it is necessary, beyond the oversight of the accounting, then trigger a technician to close the counter.

 To limit staff travel and remedy their drawbacks as mentioned above, certain manufacturers offer to install reading screens on each meter for display cameras and to transmit the information thus collected to a management center, such as the P and T cable network. This system only solves part of the problem and is quite expensive, requiring the use of telephone lines and an external local energy source.

 Other remote reading systems are developed and used.

but especially for industrial uses. because they are quite bulky and also require a local energy source which is not always available in the vicinity of the meter at an individual, especially if it is not in the countryside.

 In addition, as indicated above. all operations to close and open networks to users, in any case require the movement of staff from the management company, even when the latter has taken the meter readings from these networks by remote reading, that the we can then qualify as passive.

 The problem posed is therefore power at the same time, on the one hand.

ensure the recording of fluid consumption at each consumer and remotely and on the other hand, close and open a valve to interrupt this consumption in the event of absence, change of tenant, non-payment or freezing, for example, and all this in an autonomous way, without supply of external local energy.

One solution to the problem posed is a process for remotely lifting and interrupting fluid consumption. distributed to consumers from a common network. operated by a management company, thanks to branches, each comprising a known metering device of said consumption, eX such that
- An electric current generator is placed in association with said counting device. driven by the movement of the fluid through said bypass
- Charging a battery with the current thus collected and connecting said battery to at least one electronic system which allows, on the one hand. using any known system, the transmission of data with the management company and, on the other hand, the control of a valve associated with said metering device;
- the consumption of the fluid is continuously recorded in a memory of said electronic system and said management company interrogates this memory on demand through said transmission system to establish the statement of this consumption;
- each time that said management company decides to open and close said valve which opens and then respectively cuts off the supply of said fluid to the consumer concerned, by sending an order remotely through said transmission system .

Another solution to the problem posed is a device for remotely lifting and interrupting the consumption of fluids distributed to the consumer from a common network operated by a management company, by virtue of a bypass of this network, comprising
- a known counting device for said consumption;
- a turbine located in said branch, driven by said fluid and itself driving the rotor of an electric current generator;
- a battery recharged by said generator;
- an electromagnet allowing the closing and opening of a valve in said bypass to cut and authorize respectively the supply of said fluid;
- at least one electronic system allowing the memorization of the consumption recorded, the control of the solenoid valve and the reception and transfer of data and information by and for said management company through any known transmission system, which systems and solenoid valves are powered by said battery.

 In a preferred embodiment, said transmission system comprises a radio receiver transmitter capable of communicating with a transmitter receiver connected to a management center which acts on said electronic system on demand.

 The result is a new autonomous process and device for remote lifting and interruption of fluid consumption, which meets the needs of management companies and which brings many advantages, in particular its compactness and small footprint.

 Furthermore. the autonomy that allows on-site battery recharging using the clean energy of the fluid, authorizes the use of the process and the device anywhere. without connection to an other energy network, as well as the possibility of transmitting information by radio waves, allows its installation without connection to a communication network. All of these characteristics thus eliminate any movement of personnel to carry out meter readings, and provides security of control by a known totalization consumption meter integrated into the device, which said personnel or the consumer can nevertheless come and check to establish comparisons with remote readings in the event of a dispute.

The method and the device according to the invention also brings, by the interactivity of information transfer in one direction or the other, the possibility of ensuring various complementary functions, such as
- by a temperature sensor installed next to the device, the transmission of information on the risk of frost, and therefore the possibility by the management company to decide to cut the power supply by remote-controlled action remotely from the solenoid valve cutting;
- by centralization meters in a building which includes individual meters. instant verification that the sum of consumption corresponds to general consumption;
- by comparative analyzes of consumption, to determine fairly quickly if there are no leaks in the networks; ;
- by appropriate relays, any domestic equipment that can receive an order by electronic remote control can be controlled through the remote transmission system. such as heating, based on a house temperature reading, thus giving said fluid management and distribution companies the possibility of offering other services in home automation.

 Furthermore. in the event of a dispute with a customer, the management company can quickly decide to cut the supply of fluid to this customer, and intervene without staff travel; the cut can therefore be immediate and has a definite deterrent effect on customers.

 In the following description, we will essentially describe an example of a device according to the invention, in particular for water metering, but other fluids may be concerned, and with reference to the attached drawings and figures, but this has not no limiting character, other embodiments and other applications can be envisaged.

 FIG. 1 represents a general installation diagram of a device according to the method of the invention.

 Figure 2 shows a simplified sectional view of a device according to the invention.

 FIG. 1 represents, from a common network 1, operated by a company for the management and distribution of a fluid 17, such as the water circulating in this network, a bypass 2 ensuring the supply of said fluid to a consumer 3, such as a detached house, but also an apartment or other place of consumption.

 This bypass through the device 4 according to the invention, which comprises, on the bypass circuit, a power take-off 5 and a closing valve 7, as described in detail in FIG. 2.

 The power take-off 5. which can be a known turbine, driven by the fluid 17, rotates a mechanical counter 6 totalizer, making it possible to keep a local physical proof of consumption. This same power take-off 5 or possibly a second if necessary depending on the density and the characteristics of the fluid, also drives a generator 8 of alternating electric current, which current allows, through a known electronic system 9, on the one hand to recharge a battery 10 after rectification and regulation, and on the other hand, to measure the consumption of the fluid.

 Indeed, the frequency of said electric current generated by the rotation of said generator 8, is equal to that of rotation of said turbine and therefore roughly proportional to the speed of the fluid; this frequency is measured by said electronic system 9 and allows the latter to determine the consumption of said fluid, while the amplitude of said current makes it possible to obtain a recharging voltage for battery 10.

 Said battery 10 then supplies power to an electronic system 11, possibly integrated with that 9, allowing consumption measurement and regulation of its charge voltage. even in the absence of flow in the branch 2. For this, this rechargeable battery can be and of lead, cadmium nickel or other type, or even made of capacitors, the electrical consumption necessary for the operation of said device 4 being low, lower a few watt hours.

 This electronic system 11 ensures, on the one hand, the control of the closing valve 7 and, on the other hand. the transmission of data from and to the management center 12, through a known transmission system 13. The latter for example comprises a transmitter receiver 131 of radio waves which can communicate with a transmitter receiver 132 connected to a management center 12 which acts on said electronic system 11 on demand.

 In other embodiments, this transmission system 13 includes an interface for connection with any known remote communication network, such as the telephone cable telecommunications network. or satellite links. Said electronic system 11 may also include an interface 14, which can receive a memory card for possibly uses by prepayment of consumption or for control statements.

 In the method according to the invention, therefore, the consumption of the fluid 17 and said management company is continuously recorded in a memory of said electronic systems 9 or 11, from its center 12 interrogates on demand by the transmission network 13 said system electronic and thus collects the consumption stored to establish its statements, its management, its invoicing and all the analyzes which make it possible to trigger the actions in the event of possible incidents.

 In particular, in the event of detection of leaks or unpaid bills. it can decide to stop the distribution of the fluid 17 to the subscriber consumer 3, by sending an order through this same transmission system 13 to close the valve 7.

 All counting and order information is managed by the electronic systems 9 and 11, which can form only one and which include at least one microprocessor. This device makes it possible to manage by remote control any order of home automation to equipment of the subscriber 3.

 2 shows a simplified sectional view of a device according to the invention and as shown in Figure 1. The entire device can be contained in a housing 4 of reduced dimensions, such as for example 200 mm long on 100 mm sides: this box can include in the spaces left available. by the mechanical and electrical parts of the device and the piping of the bypass 2 in which the fluid circulates from upstream 171 to downstream 172, the electronic systems 9 and 11 and the associated battery 10 as described above.

 The fluid 171 such as the water delivered by the distribution company arrives from the bottom of the device as in most of the existing metering devices. A turbine support 25, for example made of synthetic material, is placed in the flow of the fluid and comprises circular orifices which direct the latter on the vanes of said turbine 5, which thus allows motion to be taken for the rest of the functions of the device. Said orifices are drilled at an optimum angle to obtain maximum efficiency such as for example 300 with respect to the tangent to the axis.

 According to the need for energy needs. several turbines can be mounted in the fluid stream 171. in particular if one wants to separate the metering and electric current production functions.

 In our example, said turbine 5 in motion drives a rotor 15 of a generator. including stator 8 fixed. integral with the housing 4 is then the seat of a creation of an induced current which allows. as already mentioned in Figure 1. on the one hand. by measuring the frequency linked to the speed of rotation of the turbine 5 and therefore to the flow rate, to count the instantaneous consumption and, on the other hand, by regulating its voltage, to recharge the battery 10.

 In a preferred embodiment, said drive turbine 5 of the rotor 15 of said current generator 8 can also rotate the known counting device 6 magnetic drive of a magnetic disc 16, by the rotor 15 of said generator, which rotor and which turbine 5 are placed in said fluid, while the stator 8 of the generator and the disc 16 of the meter are isolated from said fluid.

The known mechanical counting device 6 includes a visual totalizer allowing the control and verification of the effective total consumption
At the outlet of the turbine 5, the fluid 17, such as water, is stopped by the valve 7 which closes the passage by closing on its support seat 23 thanks, on the one hand to the pressure of a spring 24 and, on the other hand, at the pressure of the volume of the chamber 21 located above said valve 7. For this, an electromagnet 18 controlled by said electronic system 11, displaces a solenoid 19, which opens and closes on demand following the excitation of said electromagnet, an orifice 20 of a chamber 21 filled with fluid and located on one side of a membrane 22 supporting the valve 7. The latter is associated with a support seat 23 through which passes the fluid 17, and to a return spring 24. This orifice 20 connects said chamber 21 with the pipe situated downstream of this valve 7, so that the latter, when the orifice is open, is released from its seat support to allow the passage of the fluid and, when the orifice is closed, closes in its seat according to the positi one corresponding to said solenoid 19.

 Indeed, the opening of the orifice 20 removes the pressure component from the volume of the chamber 21 on the membrane 22: since the pressure in this chamber remains equal to the upstream pressure of the fluid 171, then drops to the value of the downstream pressure of the fluid 172. The pressure of the upstream fluid 171 against only one side of the valve then opens the latter, since after closing, the pressure of the downstream fluid 172 drops to a lower value. When an electrical pulse arrives again at the winding of the electromagnet 18, a spring 26 pushes the solenoid which closes the nozzle orifice 20; the pressures in the inlet and outlet bodies being then balanced, the closing of this orifice gives an increase in the downstream pressure and by the action of the spring 24 the valve closes again. The chamber 21 then remains at the upstream pressure of the liquid 171, the orifice 20 being closed and tight thanks to the spring 26 and to a closing and sealing device linked to said solenoid 19 and this until this opening is reopened voluntarily to reopen the valve 7.

 This opening and closing command requires only a small amount of electric current in the solenoid and can therefore be carried out using the energy stored in the battery 10 without external supply of energy and by remote control remotely through the transmission circuits and 9 and 11 orders at the request of the management company following the latter's decision.

 The present invention is not limited to the embodiments described above and which constitute only an exemplary embodiment of the device and the method according to the invention. Modifications and variations can be made as part of this.

Claims (9)

 1. Method for remotely lifting and interrupting the consumption of fluids (17) distributed to consumers (3) from a common network (1), operated by a management company (12). by means of branches (2), each comprising a counting device (6) known for said consumption, characterized in that  - Is placed in association with said counting device (6) a generator (8) of electric current, driven by the movement of the fluid through said bypass (2);  - Charging a battery (10) with the current thus collected and connecting said battery to at least one electronic system (11) which allows, on the one hand, thanks to any known system (13) the transmission of data with society management (12) and, on the other hand, the control of a valve (7) associated with said counting device:  - the consumption of the fluid (17) is continuously recorded in a memory of said electronic system (11) and said management company (12) interrogates this memory on demand through said transmission system (13) to establish the statement of this consumption;  - each time that said management company (12) decides to open and close said valve (7) which opens and which then respectively cuts off the supply of said fluid (17) to the consumer concerned (3), by sending remotely of an order through said transmission system (13).  2. Method for raising and interrupting the consumption of fluids remotely (17) according to claim 1, characterized in that all household equipment of said consumer (3) and capable of being controlled by said remote transmission system (13) receive an order by electronic remote control.  3. Device for lifting and remote interruption of consumption of fluids (17) distributed to the consumer (3) from a common network (1) operated by a management company, by virtue of a bypass (2) of this network. comprising a known counting device (6) of said consumption, characterized in that it comprises  - a turbine (5) located in said bypass (2), driven by said fluid (17) and itself driving the rotor (15) of a generator (8) of electric current;  - a battery (10) recharged by said generator (8);  - an electromagnet (18) allowing the closing and opening of a valve (7) in said bypass to cut and authorize respectively the supply of said fluid (17);  - at least one electronic system (11) allowing the memorization of the consumption recorded, the control of the solenoid valve and the reception and transfer of data and information by and for said management company, through any system (13) transmission systems, which systems and solenoid valves are powered by said battery (10).  4. Device for lifting and remote interruption of fluid consumption according to claim 3, characterized in that said electronic system (11) comprises an interface (14), capable of receiving a memory card.  5. Device for lifting and remote interruption of consumption of fluids (17) according to any one of claims 3 and 4, characterized eri that said transmission system (13) comprises a transceiver (131) of radio waves capable of communicating with a transceiver (132) connected to a management center (12) which acts on said electronic system (11) on demand.  6. device for lifting and remote interruption of consumption of fluids (17) according to any one of claims 3 to 5, characterized in that said transmission system (13) comprises a connection interface with any communication system known distance.  7. device for lifting and remote interruption of consumption of fluids (17) according to any one of claims 3 to 6, characterized in that said turbine (5) for driving the rotor (15) of said generator ( 8) current can also rotate said known metering device (6), by magnetic drive of a magnetic disc (16), by the rotor (15) of said generator, which rotor and which turbine (5) are placed in said fluid, while the stator (8) of the generator and the disc (16) of the meter are isolated from said fluid.  8. Device for lifting and interrupting the remote consumption of fluids (17) according to any one of claims 3 to 7, characterized in that the frequency of said electric current generated by the rotation of said generator (8) is measured by said electronic system (9) and allows the latter to determine the consumption of said fluid, while the amplitude of said current makes it possible to obtain a voltage for recharging the battery (10).  9. Device for lifting and interrupting the remote consumption of fluids (17) according to any one of claims 3 to 8, characterized in that said electromagnet (18), controlled by said electronic system (11), displaces a solenoid (19), which opens and closes on demand according to the excitation of said electromagnet, an orifice (20) connecting a chamber (21) located on one side of a membrane (22) supporting the valve (7-). associated with a support seat (23) through which the fluid (17) passes, and with a return spring (24). and the pipe located downstream of this valve (7), so that it is released from its support seat, to allow the passage of the fluid and closes on it respectively according to the position of said solenoid (19 ).