FR3120644A1 - Device using a laser or LIDAR to regulate the water level of a swimming pool - Google Patents

Abstract

Device using a laser or LIDAR to regulate the water level of a swimming pool. It is suitable for overflow pools with a buffer tank and for pools without overflow with at least one skimmer. In the case of a swimming pool with at least one skimmer, this device takes the form of a first small box that is fixed under the cover of the skimmer. It is waterproof, low power consumption and integrates its close source of electrical energy. This first box transmits distance information on the height of the water level in the skimmer to a second box integrating a processor. This processor activates a solenoid valve on the pool water supply circuit. It can also stop the pool recycling pump if the water level is too low. In the case of an overflow pool with a buffer tank, this device with two boxes can be used or all of these functions can be combined in the same box. These functionalities can be integrated into a larger system, such as a chemical treatment system for a swimming pool, for example. In the case of an overflow pool comprising a buffer tank, this device advantageously replaces a conventional probe device. It is easier to implement (a box to be fixed directly above the surface of the water in the buffer tank), more reliable (no clogging of the probes) and more precise. In the case of a pool without overflow comprising at least one skimmer, this device has the advantage of not comprising any moving object for the part located in the skimmer. Figure for abstract: Fig. 1

Description

Device using a laser or LIDAR to regulate the water level of a swimming pool

The present invention relates to a device for measuring the height of water in a swimming pool by a laser or LIDAR transmitter/receiver associated with controls ensuring the regulation of the water supply in the swimming pool and the safety of pool water circulation pump.

This invention is suitable for overflow pools comprising a buffer tank and for pools without overflow comprising at least one skimmer.

The device consists of two entities, the Measurement Module and the Command Module. In the case of a swimming pool with at least one skimmer, these two modules are in two different boxes, the Measurement Box ( ) and the Control Box ( ). In the case of an overflow pool, these two modules can be installed in the same box, the Control/Measurement Box ( ) or in two boxes ( ).

In a system with two boxes, the two boxes communicate by radio link.

The Measurement Box (1) integrates the laser or the LIDAR (2). The box is small (order of magnitude: 50x50x20mm), low electricity consumption and has its own source of electrical energy (battery/accumulator). It is fixed under the skimmer cover (3). The laser or the LIDAR is directly above the surface of the water (5) in the skimmer. The box is waterproof. The laser or LIDAR measures the distance between the sensor and the surface of the water. To ensure better measurement accuracy, the box has a notch (6) allowing the laser or LIDAR to be placed as close as possible to the skimmer cover and therefore farthest from the surface of the water.

The Control Box (14) incorporates the processor (8), the swimming pool water supply regulation control (10) and the safety control (7) of the pool water circulation pump. swimming pool (12). It periodically receives information on the water level from the Measurement Box. Depending on this information, it controls a solenoid valve (13) located on the swimming pool water supply circuit. It includes software and hardware safety devices (9) to guarantee that the water supply solenoid valve does not become blocked in the open position. It comprises a stop command (7) for the water circulation pump (12) in the swimming pool which can be activated according to the height of water measured and an instruction provided by the user. It includes a wireless computer link (11) making it possible to provide the installer and the end user with a Man/Machine Interface on any computer medium (Smartphone, tablet, computer, etc.). The functionalities of the Control Box can be integrated into a larger system (chemical treatment system for swimming pool water, for example).

This configuration with two boxes can be used for an overflow pool with a buffer tank ( ).

For a single box installation ( ), in the case of an overflow swimming pool associated with a buffer tank (0), the Control/Measurement Box integrates the laser or the LIDAR (1), the processor (8), the power supply regulation control in pool water (10) and the safety control (7) of the pool water circulation pump (12). Depending on this information, the processor controls a solenoid valve (13) located on the pool water supply circuit. It includes software and hardware safeguards (9) to ensure that the water supply solenoid valve does not block in the open position. It comprises a command (7) for stopping the water circulation pump (12) in the swimming pool which can be activated according to the height of water measured and an instruction provided by the user. It includes a wireless computer link (11) making it possible to provide the installer and the end user with a Human/Machine Interface on any computer medium (Smartphone, tablet, computer, etc.). The laser or LIDAR is positioned directly above the surface of the water in the buffer tank.

, , , below illustrate the invention.

Claims (8)

Device for regulating the water level of a swimming pool characterized in that the measurement of the water height is carried out by a laser or LIDAR transmitter/receiver (2) integrated in a Measurement Box (1), fixed under the cover of a skimmer (3) in the case of a swimming pool comprising at least one skimmer (4) or fixed directly above the surface of the water (5) of the buffer tank (0) in the case of an infinity pool. Device according to Claim 1, characterized in that the Measurement Box (1) is waterproof, incorporates its own source of electrical energy and comprises a notch (6) allowing the laser or LIDAR transmitter/receiver ( 2) as close as possible to the skimmer cover (3), farthest from the surface of the water (5) to guarantee better measurement accuracy. Device according to Claim 2, characterized in that the Measurement Box (1) dialogues by radio link with a Control Box (14). Device according to Claim 3, characterized in that the Control Box (14) receives information on the water level from the laser or LIDAR transmitter/receiver (2) integrated in the Measurement Box (1). Device according to Claim 4, characterized in that the distance information enables the Control Box (14) to regulate the water level in the swimming pool by controlling a solenoid valve (13) of the swimming pool water supply circuit. Device according to Claim 5, characterized in that the Control Box (14) comprises software and hardware security systems (9) guaranteeing that the solenoid valve (13) supplying water to the swimming pool is not blocked in the open position. Device according to Claim 6, characterized in that the Control Box (14) comprises a stop command (7) for the pump (12) for circulating water in the swimming pool activated according to the distance measurement provided by the transmitter/receiver or LIDAR (2) integrated in the Measurement Box (1) and an instruction provided by the user. Device according to Claim 7, characterized in that the Control Box (14) includes a wireless computer link (11) making it possible to provide the end user with a Man-Machine Interface on a computer medium.