PL241471B1 - Control and signaling system for use in disinfection stations or with disinfectant dispensers and device - Google Patents

Abstract

The subject of the notification is a control and signaling system to be used in disinfection stations or with disinfectant dispensers, equipped with a motion sensor, connected to a processor. The system is characterized in that it comprises, connected to the processor (4): a proximity sensor (2) and a signaling device (3) in the form of RGB LED lighting and / or sound signaling, the motion sensor (1) being programmed to detect movement in the area. between 1 and 10 m from the motion sensor (1), and the proximity sensor (2) is programmed to detect motion within 20 cm from the proximity sensor (2). Movement detected by the motion sensor (1) is signaled by the signaling device (3) differently than the movement detected by the proximity sensor (2). The proximity sensor (2) and the motion sensor (1) are installed in the hand disinfection zone, where the disinfection zone is defined by an area limited by a rotating ellipsoid, the center of which C is not more than 10 cm from the dispenser nozzle outlet, the dimension of the longer axis is equal to is the distance of center C from the nozzle outlet increased by 50 mm, and the dimension of the shorter drive shaft b is equal to 150% of the distance of the nozzle outlet from the surface to which the dispenser is attached. The invention further relates to a device provided with a system.

Description

PL 241 471 B1

Description of the invention

The subject of the invention is a control and signaling system for use in disinfection stations or with disinfectant dispensers, in particular for use in public spaces. The invention also relates to a device comprising a system. The main assumption of the invention is to monitor the performance of hand disinfection, mainly in the conditions of the current Covid-19 pandemic caused by the SARS-CoV-2 coronavirus.

In order to minimize the risk of infection with a pathogen and at the same time enable the safe functioning of enterprises, it is necessary to properly prepare devices that will primarily encourage passing people and allow for control in terms of hand disinfection.

The publication of utility model application W.129185 describes a hygienic station which, in a preferred variant, is equipped with a motion detector integrated with signaling lighting placed in the upper part of the body to call people entering and signal the need to use the disinfection procedure in the hygienic station. A thermal imaging camera or an infrared thermometer can also be integrated with the control system or signal lighting, constituting additional equipment of the station. The purpose of using these devices is to alert newly entering people about the need for disinfection. In addition, a motion sensor is provided in the recess for the disinfectant dispenser, integrated with the control system and the control and signaling lighting. The motion sensor records or does not record the disinfection activity and signals the fact, for example, with control and signal lighting. The implementation of the station with a properly located sensor and motion detector as well as control and signal lighting makes it a solution that is not suitable for use in numerous dispensers already operating and placed in public places.

In the patent application No. P.418010, a system and method for monitoring hand disinfection is proposed. The system includes: one or more personnel identifiers, where each personnel identifier in the system is unique; a hygiene agent dispenser located in the dispenser zone; means for detecting the presence and identifying the personnel identifier in a zone of the dispenser comprising a predetermined area around the dispenser; means for detecting the presence and identifying the identifier in the patient area comprising the designated area. The system is adapted and configured for: detection of events in the system, including: appearance of the personnel identifier in the dispenser zone, taking a hygiene agent from the dispenser, appearance of the identifier in the patient zone, leaving the patient zone by the identifier; and assigning each event to a specific personnel identifier; monitoring the sequence of occurrence of events in the system; measuring and monitoring the duration of events in the system, the duration of the event being measured as the time between the identification of a given event for a given personnel identifier and the identification of a subsequent event for that personnel identifier; communicating the correct status of the personnel identifier if the order of occurrence of events for a given identifier and their duration is consistent with at least one procedure defined in the system as correct and/or communicating a procedure error if the order of occurrence of events for a given identifier and/or their duration is not conforms to any procedure defined in the system as valid, where a valid procedure is defined as a sequence of events with a specified minimum and/or maximum duration. The solution is not suitable for use in public space for the control of the general public.

Patent application publication KR20190094606A shows a device for opening and closing a water valve. The device detects the user's feet when he places them in the hole in the lower part under the sink. The hole is equipped with sensors for detecting the user's foot and, after detecting the presence of the foot, allows electronic control of the water valve located on the water pipe of the sink for opening and closing. However, the invention pursues a different goal, namely to use water in an economical way and is a variant of the well-known touchless infrared basin faucets. The device and the solutions and technical measures implemented in it do not allow for determining potential users for disinfection.

The aim of the invention is to propose a control and signaling system that would be adapted to be installed in disinfection stations or with disinfectant dispensers, including analog dispensers, the so-called elbows. In addition, a device equipped with a

PL 241 471 B1, which should be characterized by a compact structure, allowing for its installation with any existing dispensers. It is also an important goal that the disinfection device with the system according to the invention causes a strong incentive to use disinfection and facilitates the discipline of its users.

The essence of the control and signaling system for use in disinfection stations or with disinfectant dispensers, equipped with a motion sensor connected to the processor, consists in the fact that it includes the following elements connected to the processor: proximity sensor, signaling device in the form of RGB LED lighting and/or sound signaling and a signaling timer, wherein the motion sensor is programmed to detect motion in an area ranging from 1 to 10 m from the motion sensor, and the proximity sensor is programmed to detect motion in an area up to 20 cm from the proximity sensor. Movement detected by the motion sensor is signaled by the signaling device differently than movement detected by the proximity sensor. Proximity sensor and motion sensor are installed in the hand disinfection zone. The disinfection zone is defined by the area limited by a rotating ellipsoid, the center of which is located no more than 10 cm from the outlet of the dispenser nozzle. The dimension of the longer semi-axis of the ellipse is equal to the distance of the center from the nozzle outlet increased by 50 mm, and the dimension of the shorter semi-axis of the ellipse is equal to 150% of the distance of the nozzle outlet from the surface to which the dispenser is attached. Information about the movement detected by the motion sensor is transferred to the processor, which sends a signal to the signaling device and activates the proximity sensor, and the processor counts down the time set in the signaling time controller. If there is no activity from the proximity sensor within the set time, the processor disables the signal from the signaling device and the proximity sensor is deactivated. If, however, the proximity sensor detects activity within the set time, it sends information about this event to the processor and the signaling device activates a different signaling, and the proximity sensor is deactivated. After the time set in the signaling time controller, the processor turns off the signal sent to the signaling device, and the processor returns to the state of reading the signal from the motion sensor.

Preferably, a laser proximity sensor is used.

As a variant, all elements of the control and signaling system are placed in the housing of the dispenser, and in the case of using the signaling device in the form of LED RGB lighting, the housing of the dispenser has holes for LED RGB lighting.

In another variant, the solution is an independent device, where all elements of the control and signaling system are placed in a housing with dimensions not larger than 100 mm and the housing has mounting holes on the outer wall.

The system according to the present invention is intended primarily to be mounted in the vicinity of already installed disinfectant dispensers, or it can be a supplement to newly produced dispensers. Then the system is placed inside the dispenser housing, and RGB LED lighting remains visible outside, integrated with the dispenser housing.

The system of the indicated structure, used with dispensers of substances for disinfection, supports the supervision of hand disinfection, including, for example, in situations where so far this activity was supervised by designated personnel. By emitting light/sound signals, the system encourages passing people to disinfect their hands. It is planned to use signaling associated with warning signaling, e.g. by emitting a red light. Effective disinfection is also signaled by the system, but in a different way, identified by the recipient with the "reward" signal, e.g. by emitting a green light.

The control and signaling system according to the present invention is illustrated in the examples made in the drawing, where:

Fig. 1 shows a diagram thereof;

Fig. 2 is a perspective view of the self-contained variant from the rear and in cross-section;

Fig. 3 shows the place of mounting the system in a variant in its own housing;

Fig. 4 shows the mounting location of the system in the variant of assembly in the housing of the dispenser. The operating principle of the system is also presented below.

Example 1 - Control and signaling system

The control and signaling system 100 for use in disinfection stations or with disinfectant substance dispensers has a motion sensor 1, a laser proximity sensor 2 and a signaling device 3 in the form of RGB LED lighting. These elements are connected with the controlling them

Claims (4)

PL 241 471 B1 by the processor 4 and programmed through the programming connector 5. The circuit 100 further comprises a regulator 6 of the lighting time of the RGB LED lighting. Motion Sensor 1 is programmed to detect motion within a range of 1 to 10 m from Motion Sensor 1 and Proximity Sensor 2 is programmed to detect motion within 20 cm from Proximity Sensor 2. Motion detected by Motion Sensor 1 is signaled by the signaling device 3 differently than the movement detected by the proximity sensor 2, in the present example it is the red and green colors of the RGB LED lighting. Proximity sensor 1 and motion sensor 2 are mounted in the hand disinfection zone 7, where the disinfection zone 7 is defined by the area limited by a rotational ellipsoid whose center C is located 10 cm from the outlet 8 of the dispenser nozzle 9. The dimension of the longer semi-axis a is equal to the distance between C from the nozzle outlet 8 increased by 50 mm and is 150 mm. The dimension of the shorter semi-axis b is equal to 150% of the distance of the nozzle outlet 8 from the surface 10 to which the dispenser 9 is attached. The operating principle of the system 100 is as follows: In the regulator 6 of the lighting time, the lighting time of the RGB LED lighting is set (1-10 s). After detecting movement by the motion sensor 1, the information about it is transferred to the processor 4, which sends a signal to the signaling device 3, to the transistor T1 - the red LEDs light up and the proximity sensor 2 is activated. The processor 4 counts down the time set in the regulator 6. If there is no activity from the proximity sensor 2 within the set time, the processor 4 turns off the signal from the signaling device 3 - the red LEDs go out and the proximity sensor 2 is deactivated. If the proximity sensor 2 detects activity within the set time, it sends information about this event to the processor 4, which turns off the signal from the signaling device 3 - the red LEDs go out and sends a signal to the transistor T2 - the green LEDs turn on and the proximity sensor 2 is deactivated. After the time set in the lighting time regulator 6, the processor 4 turns off the signal from the transistor T2 - green LEDs go out. Processor 4 returns to the state of reading the signal from the motion sensor 1. Example 2 - Device - a system placed in its own housing A variant of the device is shown in Fig. 2 and Fig. 3. The system 100 was made as in Example 1 and was placed in a housing 11 having the shape of a hexagon in plan view, with an inscribed circle diameter of 65 mm and a thickness of 20 mm. On the outer wall, the housing 11 has two fastening holes 12 for fastening it to the ground. The RGB LED lighting of the signaling device 3 is mounted circumferentially in grooved holes 13 made in the housing 11. Example 3 - A variant of the system placed in the housing of the dispenser A variant is shown in Fig. 4. The system 100 was made as in Example 1 and placed in the housing of the dispenser 9. The housing of the dispenser 9 has openings 14 for RGB LED lighting. Patent claims 1. A control and signaling system for use in disinfection stations or with dispensers of a disinfectant substance, equipped with a motion sensor, connected to a processor, characterized in that it includes the following connected to the processor (4): a proximity sensor (2), a signaling device (3) in in the form of RGB LED lighting and/or sound signaling, and a controller (6) of signaling time, whereby the motion sensor (1) is programmed to detect motion in an area ranging from 1 to 10 m from the motion sensor (1), and the proximity sensor (1) (2) is programmed to detect movement in the area up to 20 cm from the proximity sensor (2) and the movement detected by the motion sensor (1) is signaled by the signaling device (3) differently than the movement detected by the proximity sensor (2), the sensor proximity sensor (2) and motion sensor (1) are installed in the hand disinfection zone (7), the disinfection zone (7) is defined by the area limited by a rotational ellipsoid, the center of which (C) is located not more than 10 cm from the outlet (8) of the dispenser nozzle (9), the dimension of the longer half-shaft (a) is equal to the distance of the center (C) from the outlet (8) of the nozzle increased by 50 mm, and the dimension of the shorter half-shaft (b) is equal to 150% of the distance of the nozzle outlet (8) from the surface (10) to which the dispenser (9) is attached, and moreover, information about the movement detected by the motion sensor (1) is transmitted to the processor (4), which sends a signal to the signaling device (3) and activates the proximity sensor (2), and the processor (4) counts down the time set in the controller (6) of the signaling time and if there is no activity from the sensor within the set time PL 241 471 B1 (2), the processor (4) turns off the signal from the signaling device (3) and the proximity sensor (2) is deactivated, and if the proximity sensor (2) detects activity within the set time, it sends information about this event to the processor (4) and the signaling device (3) activates a different signaling, and the proximity sensor (2) is deactivated and after the time set in the signaling time regulator (6), the processor (4) turns off the signal sent to the signaling device (3), after which the processor (4) returns to the state of reading the signal from the motion sensor (1). 2. The control and signaling system according to claim The method of claim 1, characterized in that a laser proximity sensor is used. 3. The control and signaling system according to claim 1 or 2, characterized in that all its elements are placed in the dispenser housing (9), and in the case of using the signaling device (3) in the form of RGB LED lighting, the dispenser housing (9) has holes (14) for LED lighting RGB. 4. A control and signaling device equipped with a system as claimed in claim 1-2, characterized in that all elements of the system (100) are placed in a housing (11) with dimensions not larger than 100 mm and the housing (11) has mounting holes (12) and holes (13) for LED lighting on the outer wall RGB.