BR102018007109A2 - Automatic volume control valve with built-in metering and remote control. - Google Patents

Abstract

"built-in automatic metering and remote control valve" the built-in metered automatic volume control valve is a set of equipment attached to a housing (04) that combines the functions of measurement, pulse transmission, processing and blocking operation, allowing the customer to partially suspend the supply in cases where he is allowed to receive a daily volume of water regulated by the automatic control device. The valve consists of a hydrometer (02) used to measure and record water volume, equipped with a transducer (20) and electronic pulse cable (21), which transmits daily volume data to the motorized ball valve (03). ). The transducer (20) and electronic pulse cable (21) communicate between the hydrometer (02) and the motorized ball valve (03), connected by hydraulic and electrical connections, capturing, receiving and processing the volume data. to perform the selected operation. The motorized ball valve (03) has a communication head (28) which through a frequency transmitting radio communicated to the portable equipment (30), processes the established configurations and performs the determined operation. Every procedure is performed remotely without the need for physical connection to the device and the customer's residence.

Description

AUTOMATIC VOLUME CONTROL VALVE WITH INCORPORATED MEASUREMENT AND REMOTE CONTROL [001] This invention refers to an automatic device for controlling the volume of water distributed by Sanitation Companies or the like, from a motorized mechanism capable of blocking the flow supply to the property through parameters previously configured remotely, without the need for physical access to the equipment.

[002] The Automatic Volume Control Valve with Built-in Measurement can be used by Sanitation Companies or the like, and applied to defaulting customers, or in other situations, as a measurement and volume control instrument. It enables a scheduled water supply operation, characterized as a partial interruption, where the customer receives a pre-established volume of water daily, establishing an interactive commercial relationship between the company and the customer regarding motivated interruptions (due to default or other causes) ) and the reconnections (when the default returns or the condition that led to partial interruption is undone). The valve can also be used for other purposes, for example, in cases of customers with recurrence or recurrence of irregularities, or even in cities where there is severe water restriction.

[003] The invention is related to water connection facilities in a public supply system. Public water supply systems most of the time have a hydraulic arrangement to allow the interconnection of distribution networks with the hydraulic installations of customers (internal networks, water tanks, etc.) and, mainly, if installing a volume meter equipment. (water meter) that allows charging for the service provided - the water supply. This arrangement is called building connection or home connection. There are drawbacks such as, for example, the logistics of installing the meter, which, depending on the location, makes it difficult for the sanitation company to operate.

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cuts, reconnections and / or maintenance when requested and the possibility of providing the customer with a partial interruption, without the need to cancel the total supply of his residence.

[004] In order to solve such inconveniences, the present Automatic Volume Control Valve with Built-in Measurement was developed, from a portable remote control equipment, consisting of an interface device and software, which allows access to change the settings and principles of operating the equipment remotely, without the need to enter the customer's property and enabling the control of the volume of water supplied, by automatically activating the valve according to the volume registered by the measuring device.

[005] The invention consists of a set of equipment assembled and conditioned to a protective enclosure, the length of which is exactly the same as that of the conventional household water meter, which facilitates the installation and removal of the equipment, which simply depends on its replacement by the meter existing in the Consumer Units. Also part of the composition of the invention is a portable remote control device, which completely dispenses with the use of cables, keys or other face-to-face methods of activation.

[006] The valve can be better understood through the figures, as detailed below:

FIG.01: FRONTAL VIEW OF THE AUTOMATIC CONTROL VALVE WITH INCORPORATED MEASUREMENT;

FIG.1A: FLAT VIEW OF THE VALVE;

FIG.1 B: FRONT VIEW OF THE VALVE;

FIG.1C: LEFT SIDE VIEW OF THE VALVE;

FIG.02: BACK VIEW OF THE AUTOMATIC CONTROL VALVE WITH INCORPORATED MEASUREMENT;

FIG.2A: FLAT VIEW OF THE VALVE;

FIG.2B: BACK VIEW OF THE VALVE;

FIG.2C: RIGHT SIDE VIEW OF THE VALVE;

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FIG.03: PERPECTIVE OF THE HYDOMETER;

FIG.3A: FLAT VIEW OF THE HYDRO METER;

FIG.3B: FRONT VIEW OF THE HYDOMETER;

FIG.3C: RIGHT SIDE VIEW OF THE HYDOMETER;

FIG.04: MOTORIZED BALL VALVE PERPECTIVE;

FIG.4A: TOP VIEW OF THE BALL VALVE;

FIG.4B: FRONT VIEW OF THE BALL VALVE;

FIG.4C: RIGHT SIDE VIEW OF THE BALL VALVE;

FIG.05: FRONTAL PERPECTIVE OF THE CASE;

FIG.5A: FLAT VIEW OF THE CASE;

FIG.5B: FRONT VIEW OF THE HOUSING;

I

FIG.5C: LEFT SIDE VIEW OF THE HOUSING;

FIG.06: BACKPACK PERPECTIVE;

FIG.6A: FLAT VIEW OF THE HOUSING;

FIG.6B: FRONT VIEW OF THE HOUSING;

FIG.6C: RIGHT SIDE VIEW OF THE HOUSING;

FIG.07: PERFECTIVE OF THE ROTARY RING;

FIG.7A: FLAT VIEW OF THE ROTATING AROUND;

FIG.7B: FRONT VIEW OF THE ROTARY RING;

FIG.7C: POSTERIOR VIEW OF THE ROTATING RING;

FIG.8A: LEFT SIDE CUT OF THE EQUIPMENT;

FIG.8B: RIGHT SIDE CUTTING OF THE EQUIPMENT;

FIG.09: PORTABLE COMMAND EQUIPMENT.

[007] Relating the figures, it can be seen that the equipment (01) called the Automatic Volume Control Valve, found in fig.01 and fig.02, is the result of a combination of attached equipment inside, that when dismembered, there is a measuring component (water meter) (02), fig.03, a motorized ball valve (03), fig.04, a protective housing (04), fig.05 and fig.06, and a rotating ring (05), fig. 07.

Page 4 of 8 [008] The enclosure (04), fig.05 and 06, made of engineering plastic material, has a safety lock for the right (06) and left (07) seals, a label (08) of identification on both sides of the enclosure (04), sanitation company logo (09) engraved on both sides of the enclosure (04), an oblong (10) for viewing the “open” or “closed” status of the indicator (11 ) of the motorized ball valve (03), fig.4A, an arrow (12) indicating fluid flow on both sides of the housing (04), a right circular opening (13) for communicating the right side connection (14) the motorized ball valve (03), fig.4B, and left (15) for communication of the left side connection (16) of the hydrometer (02), fig.3B. The rear part of the enclosure (04), fig.6B, has an opening (17) that allows a complete view of the INMETRO seal, the screw (18) of the hydrometer regulator (02), fig.8B, 1C and 2B, and your manufacturing code. (The details of the enclosure (04) with all its views, can be seen in figures 05, 5A, 5B, 5C and figures 06, 6A, 6B and 6C).

[009] The tag (08), fig.5B and 6B, is indelibly engraved by laser engraving process, with identification of the year of manufacture, batch, electronic device ID in QR Code and also in bar code with quality that allows reading through a manual scanner, serial number and water meter diameter (02).

[010] The Rotating Bezel (05), fig.07, aims to allow the watch face (19) of the water meter to rotate (02), fig.3A, and ensure the protection and inviolability of the transducer (20) and cable (21) electronic pulse, fig.3B. It is manufactured in engineering plastic as a ring where its interior (22), fig.7A, is cast into the housing (04), fitting perfectly between the water meter (02) and the hinged cover (23) of the water meter ( 02), fig.8A, 8B and 1A, allowing the complete display of the water meter watch (19) (02), fig.1A, by the company's employees. (The details of the rotating rim can be seen in figures 07, 7A, 7B and 7C).

[011] The water meter (02), fig.03, used to measure and record the volume of water consumed, is equipped with a transducer (20) and electronic cable (21)

Page 5 of 8 pulses, fig.3B, which transmits counted volume data daily to the motorized ball valve (03), fig.04.

[012] The water meter (02) is connected to the motorized ball valve (03) from a right side connection (24) of the water meter (02) to a left side connection (25) of the motorized ball valve (03), fig.8B. The other ends, left side connection (16) of the water meter (02) and right side connection (14) of the motorized ball valve (03), fig.BB, will be connected to the company's easel in the building installation, the length and thread type are in accordance with INMETRO Ordinance 246. (The details of the connection are seen in figures 8A and 8B).

[013] The water meter (02) used, has a model approved by INMETRO with a velocimetric measurement principle, used to measure clean water at a variable ambient temperature between -10 ° C and 50 ° C and fluid temperature between 0 ° C and 40 ° C, has IP68 protection degree, with metal housing (26), fig.3B, made of brass alloy, watch face (19) in polycarbonate, inclined at 45 degrees to facilitate reading in the field, extra dry, airtight and immune to impurities and moisture from the external environment. (Details of the hydrometer can be seen in figures 03, 3A, 3B and 3C).

[014] The watch face (19) of the water meter (02) allows viewing, when the hinged lid (23) is open, fig.3C, of the volume reading indicator totaled in m ³ , by means of cyclometric cylinders in the black color and indication of the volume totaled in liters, by means of red cyclometric cylinders, characteristics of the water meter (02), logo of the sanitation company, non-oxidizable sealing system that guarantees the inviolability of the water meter (02) in accordance with sealing plan established in the model approval ordinance by INMETRO.

[015] The pulse transducer (20) and electronic cable (21), fig.3B, operate as a data transmitter in a resolution of 01 (one) pulse per liter, from the pulse collector and cable transducer (20) (21) data transmitter that performs the communication between the hydrometer (02) and the motorized ball valve (03), performing the capture, reception and processing of the volume data

Page 6 of 8 to perform the selected operation.

[016] The motorized ball valve (03), fig.04, is made of a brass body (27) with a lead content of less than 3%, has a communication head (28) in engineering plastic, indicator (11 ) "open" "closed" status of the ball position (29) which is made of stainless steel or brass, right (14) and left (25) side connection with thread dimensions as defined by INMETRO Ordinance 246. (The details of the motorized ball valve are shown in figures 04, 4A, 4B and 4C).

[017] The ball (29), fig.4C, is driven by an internal electric motor from the ball stem gearbox equipped with two limit switches that behave as "open" and "closed" electrical status indicator ”.

[018] The communication head (28), fig.4B, has an electronic circuit inside it capable of receiving the pulses generated by the hydrometer (02), calculating and storing the reading corresponding to the current recorded on the watch face (19 ), fig.3A, depending on the pulses generated, receive and send radio frequency commands to the portable device and start the blocking ball motor. It is battery powered with the ability to operate at varying temperatures, store data and keep the system running throughout its life.

[019] The communication head (28), fig.4B, also has an integrated backup capacitor to maintain stability of the electronic system in case of transient battery failure. This head (28) is equipped with 02 (two) digital inputs for indicating the status of the motorized ball valve (03) through its limit switches, power output for controlling the ball motor (29) fig.4C, 02 (two) high frequency digital inputs (counters), with a sensing device that allows detecting improper manipulation in the device, cutting the cable (21) pulse transducer, fig.3B, or attempted fraud by means of an external magnetic attack.

[020] Communication is carried out by electronic circuit controlled by embedded software technology located in its head, to receive and

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send wireless remote control (wireless) to the portable equipment (30), fig.09, with radio frequency control, RF communication module with frequency approved by ANATEL and helical antenna (31), fig.09, for communication. Communication does not cause or suffer interference from other communication equipment provided for in national and international regulations.

[021] The communication of the motorized ball valve (03), fig.03, with portable equipment (30), fig.09, of control is carried out in encrypted form and makes it possible to receive the remote opening / closing commands of the ball (29 ), fig.4C, send the volume control parameters, between 0 and 1000 liters, defined by the company to be supplied daily to the customer, disable the daily volume control functionality, transmit the total volume (current reading) of the hydrometer (02), fig.03, receiving the initial reading of the hydrometer (02), transmitting alarm status of tampering detection, cable cut (21), fig.3A, pulse transducer or attempted fraud by attack external magnetic, receive data from the water meter (02) and equipment characteristics (01), fig.01.

[022] The operating distance of the portable equipment (30), fig.09, of control with the equipment (01), fig.01, is at least 100 m with masonry barriers without suffering or causing any interference from other equipment communications provided for in national and international regulations.

[023] Upon receiving the command to start the volume control, the equipment (01), fig.02, receives the value programming for the daily volume to be released, where it is stored and the ball valve (03), fig.04, closes immediately and, after a short determined time interval (between 5 and 20 seconds), the ball valve (03), fig.04, opens again. This initial procedure aims to inform the system operator that the equipment (01), fig.02, has correctly received the command and from that moment on it will operate as a volume controller, informing the current reading of the hydrometer (02) for the portable equipment (30), fig.09, for control.

Page 8 of 8 [024] The operating cycle of the equipment (01), fig.01, is 24 (twenty-four) hours, counted from the moment of the command activation, where the monitoring of the volume that starts by the hydrometer (02), fig.03, and the command programming starts, taking actions to keep the ball valve (03), fig.04, open until the programmed volume is reached, to continuously receive the pulses generated by the hydrometer ( 02), fig.03, to total the volume consumed, block the passage of water when the programmed volume is reached, keep the motorized ball valve (03), fig.04, closed until the 24-hour cycle is completed and repeat this operation every 24-hour cycle.

[025] The actuation time of closing and opening the motorized ball valve (03), fig.04, is 10 seconds and in each 24-hour cycle closing, the equipment (01), fig.02, resets the cyclic counter for drained volume and keeps the updated totalized volume stored for each cycle.

[026] If the 24-hour cycle is reached, without the programmed volume having been counted, the motorized ball valve (03), fig.04, will remain open until the next cycle and the equipment (01), fig.01 , clears the flow cyclic counter.

[027] Upon receiving an opening command, the flow cyclic flow counter is reset and the valve remains in the open position, until it receives a new programming charge.

[028] If the equipment (01), fig.01, receives the control command with volume 0 (zero), the ball valve (03), fig.04, is closed immediately, remaining so until receiving an opening command . In this case, the equipment (01), fig.01, will behave like a total block valve.

Claims (3)

1 “AUTOMATIC VOLUME CONTROL VALVE WITH INCORPORATED MEASUREMENT AND REMOTE CONTROL”, characterized by having a remote partial interruption operation system, where operations are made and can be configured remotely according to the volume of water supplied to the consumer. 2 "AUTOMATIC VOLUME CONTROL VALVE WITH INCORPORATED MEASUREMENT AND REMOTE CONTROL", according to claim 1, characterized by having inside a hydrometer (02) and a motorized ball valve (03), whose total length is exactly same length as a conventional meter, which communicate via a transducer (20) and electronic pulse cable (21), which transmit the consumption information of the hydrometer (02), and from its processing executes the opening and closing commands the motorized ball valve (03). 3. "AUTOMATIC VOLUME CONTROL VALVE WITH INCORPORATED MEASUREMENT AND REMOTE CONTROL", according to claim 2, characterized by the fact that the control operation determined by the sanitation company, is made from a portable control device (30) , which communicates via radio frequency with the Motorized Ball Valve (03), which performs the processing of received information and performs the determined operation.