WO2018078251A1 - System for the sanitary control of places of human activity - Google Patents

Abstract

The invention relates to a system for the sanitary control of places of human activity carried out in various areas (Z1, Z2) in which staff members and certain instruments are present, said system comprising a plurality of nodes (Ni l, NI 2, N21, N22 N23), each one allocated to said staff members and to said certain instruments, area indicators IZ11, IZ12, IZ13 IZ21 IZ22 and area managers (MZ1, MZ2). The nodes operate in "beacon" mode.

Description

 "Health control system of places of human activities"

The present invention relates to a health control system of places of human activities taking place in various areas in which members of the personnel assigned to these places as well as some equipment can evolve, a system comprising a plurality of nodes each assigned to said staff members and certain devices, zone indicators and zone managers.

The system is particularly intended for the real-time management of workplaces such as construction sites, factories, workshops, hospitals, etc. in which processes involving human and material resources involving health, human environmental risks are implemented). For example, we want to monitor the movements of staff members in premises for which we want to monitor that the rules of hygiene are respected. Thus, we want to prevent members from moving from an area considered dirty to an area that must be clean without any action being taken (washing hands for example). This type of problem is encountered in food manufacturing plants for which the hygiene instructions must be scrupulously respected.

In this regard, see patent document US2016 / 0117912.

As this kind of system often requires the use of nodes attached to certain devices in the workplace (such as trolleys) and especially to staff members (smart phone watches), we are confronted with the problems of the power supply of these devices. nodes which must have a great autonomy to ensure the control of the places.

One of the aims of the invention is to limit the consumption of these nodes which must be constantly connected. For this, such a system is remarkable in that the nodes operate in beacon mode and have the ability to switch to collector mode. What is meant by beacon mode is that the nodes transmit a signal at regular intervals followed by a very short listening period and all record the data until a node in collector mode retrieves them.

The following description accompanied by the accompanying drawings, all given by way of non-limiting example, will make it clear how the invention can be realized.

In the drawings:

 FIG. 1 shows the diagram of the system according to the invention,

In Figure 1, the system of the invention 1, monitors changes in personnel and other equipment in a workplace formed, in this example, two zones ZI and Z2 with different cleanliness criteria. The system of the invention is based on a network operation. To follow their evolutions, a device is attached to them and is considered as a node as said above which is a member of the network. Each of these zones is attached to at least one zone indicator which permanently provides a radio signal giving the information giving the reference of the zone. If the area is too large a plurality of area indicators may be provided. If it is desirable that the different mobile nodes should be located precisely the number of zone indicators may be more important. In the zone ZI, these indicators bear the reference IZ11, IZ12 IZ13, and in zone Z2: IZ21 and Z22. Zone 1 has two nodes Ni1 and N12 while zone Z2 has three nodes: N21, N22 and N23. A zone manager is assigned to each of the zones MZ1 for zone ZI and MZ2 for zone Z2. These managers MZ1 and MZ2 are connected to a remote server CL of the "cloud" type via an HB concentrator.

All the elements mentioned are part of the network and can communicate with each other by radio. The operation of the system according to is as follows:

The location of the nodes, associated with pairing rules (between people, equipment, places), tracking and temporality, can detect abnormal situations: the failure to respect the "forward march" (reverse an operator from a dirty area to a cleaner area, crossing another operator from a dirtier area). In the agri - food industry, the isolation of a visitor in a secure area which is a drift on a production line with non - compliance with hygiene rules is planned. The location of the nodes is ensured by two complementary mechanisms: each zone manager signals to the concentrator the presence of a node in its zone, when it detects it. Zone indicators (fixed) give their position in beacon mode, which allows the nomadic nodes to know in which zone they are and to signal their presence to the nearest manager. With this mechanism it is possible to follow the movements of the nodes in a macro way (by the managers) but also in a much finer way thanks to the indicators, the granularity of the location then depending on the number of indicators. The range of a zone manager is adjustable. This feature allows for example to use a zone manager to detect the presence of a hand (thanks to a connected bracelet) in a dangerous zone

(grinder, knives, ...).

The control of the flows (displacements) is realized by a routing algorithm in the concentrator which ensures in real time that the "roads" taken by the nomadic equipments are in conformity.

The nomadic equipment has in memory the paths and directions that are authorized (flow management) to the image of a road map with forbidden directions, prohibitions to turn to the right, etc., and can therefore trigger sound and light horns even in the absence of a network.

- Each nomadic entity (employee, visitor, trolley, etc.) can participate in the data collection during these trips thus making it possible to solve the radio wave range problems in all environments while ensuring the redundancy of the transmissions.

- The network architecture allows a very high autonomy of nodes, unlike conventional architectures where the node that "listens" consumes energy permanently: Here all devices operate in "beacon" mode (they emit a signal at regular intervals , followed by a very short listening period) and expose their resources (I am: sensor, indicator, gateway, recorder, manager, etc ...) that can be multiple. The collectors pass at specific times, known to the network, in listening mode to allow unloading the data saved in the other nodes.

In case of emergency (exceeding a threshold on a sensor, intrusion detection, etc. ..) the node causing the alert goes into listening mode which allows it to connect in real time to a manifold. This mode of operation makes it possible to gain several orders of magnitude on the consumption of the collectors which can then operate years on battery or battery without sacrificing the real time. In case of failure of a part of the local network (no more collector available), each node can, at the request of another node perform a repeater function to route the urgent data to the managers or the hub.

In addition to the health risk dealt with as described above, the system can prevent the risk of accidents by automating the LMRA procedure: each personal protective equipment carries an RFID / NFC tag, the collective protective equipment (fire extinguishers, emergency kit). first emergency, etc.) have BLE tags that also contain compliance information (date of last check, expiry date, etc.). A checklist application is available in a watch, smartphone, or other personal item with NFC and BLE connectivity. The worker, just before starting a risky activity, launches the application of self-diagnosis, and approaches the object of each one of his individual equipments (helmet, harness, gloves, glasses, shoes, etc), which validate their presence in the application; Collective protective equipment is automatically detected if it is in the intended area and if it is compliant. When all the conditions are met, the application gives the go-ahead and informs the concentrator, via the zone manager or directly, of the start of the activity.

Claims

1) - System of health control of places of human activities taking place in various zones (ZI, Z2) in which members of the personnel assigned to these places as well as certain apparatuses can evolve, system comprising a plurality of nodes (Ni l, NI 2, N21, N22 N23) each assigned to staff audits and to certain equipment, zone indicators (IZ1, IZ12, IZ13 IZ21 IZ22) and zone managers (MZ1, MZ2) characterized in that the nodes operate. in "beacon" mode.  2) System according to claim 1 characterized in that the zone indicators (IZI l, IZ12, IZ13 IZ21 IZ22) and the zone managers (MZl, MZ2) operate in "beacon" mode.  3) - System according to claim 1 or 2 characterized in that the nodes may have a "collector" mode to collect the data transmitted by other nodes.  4) - System according to one of claims 1 to 3 characterized in that when a node is placed in position to provide an alert signal, it goes into the "listening" position and is connected to a node in collector position.