AT526594B1 - Method and device for germ reduction - Google Patents

Abstract

A method for reducing germs is described with a device for reducing germs, comprising a tunnel (1) in which a spray device (2) is arranged, which is connected to a germ reducing agent tank (5) and can be activated via a control unit (9), wherein a person sensor (8a, 8b) detects the presence of a person in the tunnel (1). In order to enable such a device and such a method, by means of which the willingness of people to use the device can be increased without having to accept losses in terms of the germ reducing effect, it is proposed that the control unit (9) only activates the spray device (2) to spray a germ reducing agent when a sensor (10) measures a germ reducing agent concentration in the air as an actual value that is below a predefinable minimum target value and when the person sensor (8a, 8b) determines that there is no person in the tunnel (1).

Description

Description

[0001] The invention relates to a method for germ reduction with a device for germ reduction comprising a tunnel in which a spray device connected to a germ reduction agent tank and activatable via a control unit is arranged, wherein a person sensor detects the presence of a person in the tunnel. The invention also relates to a device for germ reduction with a tunnel in which a spray device connected to a germ reduction agent tank is arranged, with a person sensor for detecting a person and with a control unit operatively connected to the sensor and the spray device.

[0002] A device for reducing germs is known from CN212973658U. The device comprises a tunnel in which several person sensors are arranged to detect the presence of a person. If the person sensor detects a person in the tunnel, a control unit activates spray devices located in the tunnel so that they release a germ reducing agent with which a person is wetted. The disadvantage of this, however, is that direct wetting creates an uncomfortable feeling of wetness for the person, so that such devices are not very popular.

[0003] The invention is therefore based on the object of proposing a device and a method for germ reduction of the type mentioned at the outset, by means of which the willingness of people to use the device can be increased without having to accept losses with regard to the germ reduction effect.

[0004] The invention solves the problem in that the control unit activates the spraying device to spray a germ reducing agent only when a sensor measures a germ reducing agent concentration in the air as an actual value that is below a predeterminable minimum target value and when the person sensor determines that there is no person in the tunnel. The invention is based on the idea that the germ reducing effect of the method or device can be deduced from the actual value of the germ reducing agent concentration in the air in the tunnel, so that a higher germ reducing agent concentration in the air leads to a better germ reducing effect. In principle, there are different ways of measuring the germ reducing agent concentration in the air. A particularly simple way is, however, when the sensor is a humidity sensor and when the germ reducing agent concentration is deduced from the air humidity in the tunnel. Such a conclusion is particularly possible if, in addition to the air humidity in the interior of the tunnel, the reference air humidity of the germ reducing agent-free air outside the tunnel is measured for comparison purposes, so that it can be determined which increase in humidity results from the added germ reducing agent. Thus, within the scope of this invention, the measurement of the air humidity in the interior of the tunnel is considered to be a measurement of the germ reducing agent concentration. If the actual value of the germ reducing agent concentration in the air or the actual value of the air humidity falls below a predeterminable minimum target value, for example a 60% relative air humidity, preferably a 70% relative air humidity, more preferably an 80% air humidity, even more preferably a 90% air humidity, it can be concluded that the sanitation effect of the method or device is too low. For this reason, according to the invention, the spray device is activated to spray the germ reducing agent and thus to enrich the air in the tunnel with germ reducing agent when the minimum target value is undershot. Because the spraying only takes place when no person is detected in the tunnel, unpleasant direct wetting of people by activated spray devices is prevented.

[0005] According to the invention, the environment is adjusted by spraying the germ reducing agent in the tunnel only in a time interval in which there are no people in the tunnel, so that the environment has a germ reducing effect. It has been found that the strong enrichment of the air, especially up to saturation with the germ reducing agent, results in a germ reducing effect even without direct spray contact with the people.

effect occurs, particularly when the air is enriched with germ reducing agent until it is close to or at the saturation point without germ reducing agent falling out. In order to be able to adequately measure the actual value, the sensor can be arranged in the area of the tunnel through which the people actually pass, hereinafter referred to as the passing area. Several sensors can also be provided, evenly arranged in the passing area. Nozzles can preferably be used as spray devices. The spray device can be supplied with the germ reducing agent from the germ reducing agent tank via a pump. The tunnel can be made from a frame construction. The germ reducing agent tank can be installed in the roof of the tunnel, which on the one hand results in a small distance to be overcome between the germ reducing agent tank and the spray devices and on the other hand protects the germ reducing agent tank from unauthorized access. In order to increase the willingness of people to enter the tunnel, the tunnel can be designed without doors at the entrance and exit. In this way, the people using the tunnel do not experience any feeling of being cramped or anything like that. In order to be able to maintain a stable environment in the interior of the tunnel despite the doorless design, it is proposed that the length of the tunnel be at least 2 times, preferably 3 times, and more preferably 4 times as large as the height of the tunnel. This results in a sufficiently germ-reducing environment, especially in the central area of the passage area, which is at a distance from the entrance and exit, since this area experiences a lower exchange of substances with the atmosphere surrounding the tunnel due to the distance from the entrance and exit.

[0006] The amount M of germ reducing agent to be released by the spraying devices can be determined depending on the maximum water vapor absorption capacity e of the air in the room:

V [0007] M = € + zz,

T is the temperature in °C. e corresponds to the maximum water vapor absorption of the air under given boundary conditions, and can be given by:

17,67*T A)

where V is the volume of the room in m®, R the gas constants, and

T+243.5,—P___ [RE T+243.5 6.112*e *7013.25* 100 7 0.622*6.112*e

17.67*T e= D-0.3788*eT+243.5 0.08314*(T+273.15) >

where p is the measured air pressure in hPa and RH is the relative humidity in %.

[0008] The best germ-reducing conditions for sanitation of people, without negatively affecting the sanitation experience of the people, have been established when the spray device is arranged in an enrichment area located outside a passing area and when the spray device is only activated by the control unit until the air in the passing area is saturated. In the enrichment area, in which the spray device or several spray devices can be arranged, the germ reducing agent can condense, but since the enrichment area is adjacent to or at a distance from the passing area, there is enough time during the flow of the air including the germ reducing agent to the passing area for the germ reducing agent to be completely absorbed until the air is saturated, so that the people in the passing area do not experience a noticeable feeling of wetness, but still experience a germ-reducing effect on their body surfaces due to the finely distributed germ reducing agent molecules. In the simplest case, the enrichment area and the passing area are in the same room in the tunnel and are therefore not physically separated from each other. The distinction between the enrichment area and the passing area can therefore only be made by ensuring that passers-by are sufficiently spaced away from the spraying device. For example, two enrichment areas can be provided that run in the upper side areas of the tunnel that are opposite each other with respect to the tunnel's longitudinal axis, while the passing area runs centrally between the enrichment areas. This gives enough time for any condensation to occur before the air flows from the enrichment area or from the enrichment areas to the passing area.

tes germ reducing agent to be absorbed by the air so that the air in the passing area is saturated but people do not get noticeably wet. In order to saturate the air but not cause the germ reducing agent to condense in the passing area, the spray device can only be activated for a predeterminable time interval based on experience, for example. In an embodiment that can be set particularly precisely, the spray device can only be activated by the control unit until a sensor arranged in the passing area measures an actual value that corresponds to a predeterminable maximum setpoint or is above the maximum setpoint. Because the sensors for measuring the relative humidity or the concentration of germ reducing agent in the air are arranged in the passing area, the control is not negatively affected by the varying humidity conditions in the enrichment area caused by the spray. The predeterminable maximum setpoint can be a relative humidity of 100%.

[0009] In order to prevent an unnecessarily high consumption of germ reducing agent to set a germ reducing environment in the tunnel, it is proposed that the control unit only activates the spraying device to spray a germ reducing agent when a person sensor detects a person in front of the tunnel. In this way, the spraying device is prevented from being constantly controlled to set an actual value above the minimum target value when the device is not used for a long time. The spraying device can also, for example, only be deactivated if it is not used for longer than a predefined period of time, for example 10 minutes, and only be activated again when the person sensor detects a person in front of the tunnel.

[0010] In order to prevent unauthorized entry by persons during the spraying process and to prevent inadequate germ reduction by persons passing through the tunnel, it is proposed that a signal display outputs a warning signal when the sensor measures an actual value that is below a predeterminable minimum setpoint and the spraying device is activated. The signal display can be a traffic light system that outputs a red warning signal when the sensor measures an actual value that is below a predeterminable minimum setpoint and the spraying device is activated and outputs a green signal when the sensor measures an actual value that is above a predeterminable minimum setpoint and the spraying device is deactivated. The minimum setpoint can be a relative humidity of 60%, preferably 70%, more preferably 80%, in particular 90%.

[0011] A particularly rapid absorption of the germ reducing agent released via the spray device occurs when the duration of a spray from the spray device is a maximum of n ms, whereby the spraying is made up of several partial spray pulses with a maximum duration of n/10 ms. Because continuous spraying is not used, but rather it is pulsed, the air is given time to absorb the germ reducing agent. At the same time, the partial spray pulses result in an improved mass exchange between the air directly in the area of the spray device and the air surrounding this area, so that before each partial spray pulse, already enriched air can flow out and at the same time non-enriched air can flow in. In this way, the time required for the air to absorb the germ reducing agent, in particular until the air is saturated, can be reduced. A maximum spray duration of 500 ms and a duration of the partial spray pulses of 1 to 50 ms have proven to be particularly suitable values.

[0012] It has been found that a simple to control dosage of the spray device can be realized, which at the same time prevents the germ reduction agent from falling out, if the number of partial spray pulses is selected depending on the measured relative humidity and the measured air pressure. This is based on the assumption that at low relative humidity and low air pressure the required number y of partial spray pulses increases. Surprisingly, it has been found that the determination of the number of partial spray pulses by the formula

(measured air pressure (mbar) — 970 mbar) +8 relative humidity (%) * 8 60 100

y=13-

creates a particularly suitable germ-reducing environment without the germ-reducing agent precipitating out. If the formula results in a decimal number, the figure can be rounded up or down. If the formula results in a negative value, a minimum number of spray pulses, for example 3, can be specified. For a given delivery volume per spray pulse, the delivery quantity AM of germ-reducing agent during one spraying can be determined. This delivery quantity AM can be compared with the quantity M of germ-reducing agent calculated above that is to be delivered by the spraying devices. If the deviations between AM and M are too great, an average value between the delivery quantity AM and the quantity M can be calculated and the number y can be changed so that it corresponds to the average value of the delivery quantity AM and the quantity M.

[0013] The method can be used with a device for germ reduction with a tunnel in which a spray device connected to a germ reducing agent tank is arranged, with a person sensor for detecting a person and with a control unit operatively connected to the person sensor and the spray device, wherein a sensor for measuring the germ reducing agent concentration in the air is provided in the tunnel and wherein the control unit is set up to control the spray device to spray a germ reducing agent only if the sensor measures a germ reducing agent concentration as an actual value that is below a predeterminable minimum target value and if the person sensor determines that there is no person in the tunnel. The person sensor can be a motion sensor arranged in the interior of the tunnel. Two light barriers, one at the entrance and one at the exit of the tunnel, can also be used as a person sensor. By comparing the people entering with the people leaving, it can be concluded whether there is still a person in the interior of the tunnel, so that the spray device is not activated. For redundant security, both a motion sensor in the interior and light barriers at the entrance and exit of the tunnel can be used. If the relative humidity is measured as an actual value to determine the germ reducing agent concentration, the sensor can include a humidity sensor, a temperature sensor and a pressure sensor, so that the relative humidity can be determined in a manner known from the state of the art.

[0014] At least one person sensor can be set up to detect a person in front of the tunnel and the control unit can be set up to only control the spraying device to spray a germ reducing agent if the person sensor detects a person in front of the tunnel. In this way, excessive germ reducing agent consumption can be avoided when no people are present. In this case, three necessary conditions arise for the spraying device to be activated. Firstly, the sensor must measure a germ reducing agent concentration in the air as an actual value that is below a predeterminable minimum target value. In addition, no person may be in the tunnel. In addition, there must be people in front of the tunnel. The last condition can, for example, only be used after a predeterminable period of non-use of the device.

[0015] In order to prevent unwanted entry into the tunnel during a spraying process, it is proposed that a signal display be provided which is designed to output a warning signal when the sensor measures an actual value which is below a predefinable minimum setpoint value and the spraying device is activated.

[0016] In order to recycle germ reducing agent deposited on the ground due to gravity to increase the total germ reducing agent concentration in the air, the floor of the tunnel can include a heater. In this way, any germ reducing agent condensed on the ground evaporates and in turn accumulates in the air inside the tunnel. In addition, the heater ensures an increased air temperature in the tunnel so that the air has an increased germ reducing agent absorption capacity, which further improves the sanitation effect of the tunnel.

[0017] The drawing shows the subject matter of the invention by way of example.

[0018] Fig. 1 shows a device for reducing germs according to the invention in front view, [0019] Fig. 2 shows a device for reducing germs according to the invention in rear view,

[0020] Fig. 3 is a schematic section through a device according to the invention in side view,

[0021] Fig. 4 is a flow chart of the method according to the invention for germ reduction and [0022] Fig. 5 is a diagram showing the control of the spray device.

[0023] As indicated in Fig. 1 to 3, a device for reducing germs has a tunnel 1 in which one or more spray devices 2 are arranged. Fig. 3 makes it clear that the spray devices 2, comprising nozzles for example, are not arranged directly at the entrance 3 or at the exit 4, but in a central area of the interior of the tunnel 1. The spray devices 2 are fluidly connected to a germ reducing agent tank 5 via flow lines 6. The germ reducing agent tank 5 can be installed in the roof 7 of the tunnel 1. The device also comprises one or more person sensors 8a, 8b for determining whether a person is in the tunnel 1. Light barriers 8a at the entrance 3 and/or exit 4 can be provided as person sensors 8a, 8b, which can detect whether a person is in the tunnel 1 by comparing people who have entered the tunnel 1 and people who have exited the tunnel 1. Alternatively or additionally, a motion sensor 8b can also be used to detect the presence of people in the tunnel 1. The person sensors 8a, 8b and the spray device 2 are operatively connected to a control unit 9. According to the invention, the control unit 9 is also operatively connected to a sensor 10 arranged in the tunnel 1 for measuring the germ reducing agent concentration in the air and the control unit 9 is set up to control the spray device 2 to spray a germ reducing agent only when the sensor 10 measures an actual value that is below a predefinable minimum target value and when the person sensor 8a, 8b does not detect a person in the tunnel 1. There are various ways of measuring the germ reducing agent concentration in the air. A simple possibility arises if the sensor 10 is a humidity sensor and if the germ reducing agent concentration is deduced from the air humidity in the space of the tunnel 1. This can be done precisely if, in addition to the air humidity in the interior of the tunnel 1, the reference air humidity of the germ reducing agent-free air outside the tunnel 1 is measured for comparison purposes, so that it can be determined which increase in humidity results from the added germ reducing agent. Thus, within the scope of this invention, the measurement of the air humidity in the interior of the tunnel 1 is considered to be a measurement of the germ reducing agent concentration. The reference air humidity can be measured by reference sensors 11 that are arranged outside the tunnel 1 and measure, for example, pressure, temperature and humidity.

[0024] The person sensors 8a can detect persons located in front of the tunnel 1, so that the control unit 9 only controls the spray device 2 to spray a germ reducing agent in order to save germ reducing agent when the person sensor 8a detects a person in front of the tunnel.

[0025] Fig. 3 shows that the floor 12 of the tunnel 1 can include a heater 13 so that germ reducing agent deposited on the floor 12 can be transferred back into the air by evaporation. By increasing the interior temperature, the capacity of the air to absorb the germ reducing agent can also be increased so that the germ reducing effect is further improved.

[0026] As can be seen in particular from the combination of Fig. 1 and Fig. 3, the sensors 10 for measuring the germ reducing agent concentration in the air of the tunnel 1 are arranged in a passage area 15 located outside an enrichment area 14. The enrichment area 14 is to be understood as at least that area which is occupied by the spray cone emerging from the spray device 2, which is why varying germ reducing agent concentrations and possibly precipitated germ reducing agent are to be expected in this area. The enrichment area 14 is preferably at least

1.5 times as large as the spray cone, so that when the air enriched with the germ reducing agent flows from the spray cone to the passing area 15, the germ reducing agent is absorbed until the air is saturated. The passing area 15 is the area of the interior of the tunnel 1 that is not occupied by the enrichment area 14. In the passing area 15 there is therefore preferably predominantly air saturated with the germ reducing agent, so that when passing through the passing area 15 people experience a strong germ reduction but do not feel wet. In order to prevent condensation of the germ reducing agent in the passing area 15, the spray device 2 can only be activated by the control unit 9 until the air in the passing area 15 is saturated. In order to obtain a representative measurement of the saturation of the air in the passing area 15, the sensors 10, in particular humidity sensors, can be arranged at different heights. Preferably, the sensors 10 are arranged in the longitudinal plane of symmetry of the tunnel 1, since this also corresponds to the typical path of people when passing through.

[0027] From Fig. 1 it can be seen that a signal display 16 can be provided for issuing a warning signal. The warning signal can be issued when the sensor 10 measures an actual value that is below a predeterminable minimum target value and the spray device 2 is activated. In this way, it is prevented that a person enters the tunnel 1 when the germ-reducing environment is insufficient, or that a person is sprayed directly by the spray devices 2.

[0028] Fig. 4 shows a flow chart of an embodiment of the method according to the invention. The method can be initiated by a person approaching the device in a step A, whereupon in a step B a person sensor 8a detects this person in front of the entrance 3. In a step C it is checked whether spraying by the spray device 2 is permitted. The information regarding the permission is obtained on the basis of the person sensors 8a, 8b, therefore on the basis of the knowledge of whether a person is in the tunnel 1. If spraying is not permitted because a person is in the tunnel 1, a warning signal, for example a red light, is given by the signal display 16 in step D. If spraying is generally permitted, a check is made in step E to see whether a spraying process is necessary. In this case it is checked whether the sensor 10 measures a germ reducing agent concentration in the air as an actual value that is below a predeterminable minimum target value. If this is not the case, no spraying process is necessary according to step E, which is why in a step F the signal display 16 does not emit a warning signal or emits a green light so that people can pass through the tunnel 1. If a spraying process is necessary according to step E, in step G the signal display 16 emits a warning signal and the control unit 8 activates the spraying device 2. The spray quantity used to saturate the air in the tunnel 1 is determined from the measured germ reducing agent concentration or the relative humidity. In addition, factors such as temperature, pressure and the time elapsed since the last spraying process can also be taken into account. The spray quantity can preferably be specified via the number y of spray bursts.

[0029] After completion of the spraying process in step G, in step H, for example, a person can walk through the tunnel 1 while a green light is displayed by the signal display 16.

[0030] Fig. 5 shows a diagram according to a preferred control of the spray device 2. The spray device 2 is not continuously operated during a working cycle 17, but is activated by a current signal in such a way that one spray 18 comprises several partial spray pulses 19. The fineness of the atomization can be adjusted by the time interval of the partial spray pulses 19. The fact that the spray 18 is not continuously operated promotes the absorption of the germ reducing agent by the air. The number y of partial spray pulses 19 can be adjusted by

(measured air pressure (mbar) — 970 mbar) +8 relative humidity (%) * 8 60 100

The volume of germ reducing agent delivered per spray 18 or per partial spray pulse 19 can correspond to that of an injection nozzle known from the prior art. The duration of a partial spray pulse 19 can be 1 - 50 ms.

y=13-

Claims (9)

Patent claims 1. Method for germ reduction with a device for germ reduction comprising a tunnel (1) in which a spray device (2) connected to a germ reducing agent tank (5) and activatable via a control unit (9) is arranged, wherein a person sensor (8a, 8b) detects the presence of a person in the tunnel (1), characterized in that the control unit (9) activates the spray device (2) to spray a germ reducing agent only when a sensor (10) measures a germ reducing agent concentration in the air as an actual value which is below a predefinable minimum target value and when the person sensor (8a, 8b) determines that there is no person in the tunnel (1). 2, Method according to claim 1, characterized in that the spray device (2) is arranged in an enrichment region (14) located outside a passing region (15) and that the spray device (2) is activated by the control unit (9) only until the air in the passing region (15) is saturated. 3. Method according to claim 1 or 2, characterized in that the control unit (9) activates the spraying device (2) to spray a germ reducing agent only when a person sensor (9a) detects a person in front of the tunnel (1). 4. Method according to one of claims 1 to 3, characterized in that a signal display (16) outputs a warning signal when the sensor (10) measures an actual value which is below a predefinable minimum target value and the spray device is activated. 5. Method according to one of claims 1 to 4, characterized in that the duration of a spray (18) of the spray device (2) is a maximum of n ms, wherein the spray (18) is composed of several partial spray pulses (19) with a maximum duration of n/10 ms. 6. Method according to claim 5, characterized in that the number y of the spray pulses (19) depends on the measured relative humidity and the measured air pressure is chosen, in particular that y with the formula y= 13 — (measured air pressure (mbar)-970 mbar)*8 — rel. humidity (%)+*8 60 100 is determined. 7. Device for germ reduction with a tunnel (1) in which a spray device (2) connected to a germ reducing agent tank (5) is arranged, with a person sensor (8a, 8b) for detecting a person and with a control unit (9) operatively connected to the person sensor (8a, 8b) and the spray device (2), characterized in that a sensor (10) for measuring the germ reducing agent concentration in the air is provided in the tunnel (1) and that the control unit (9) is set up to control the spray device (2) to spray a germ reducing agent only when the sensor (10) measures a germ reducing agent concentration as an actual value that is below a predefinable minimum target value and when the person sensor (8a, 8b) determines that there is no person in the tunnel (1). 8. Device for germ reduction according to claim 7, characterized in that at least one person sensor (8a) is designed to detect a person located in front of the tunnel (1) and that the control unit (9) is designed to control the spray device (2) to spray a germ reducing agent only when the person sensor (9a) detects a person in front of the tunnel (1). 9. Device according to claim 7 or 8, characterized in that the floor (12) of the tunnel (1) comprises a heater (13). 4 sheets of drawings