NL2004431C2 - SYSTEM AND METHOD FOR DISINFECTING AN OBJECT. - Google Patents

Description

P30235N LOO / ENY

Short indication: System and method for disinfecting an object.

The invention relates to a disinfection system which is provided with a disinfection mat and a supply device for supplying a disinfection fluid to the disinfection mat. The disinfection mat is used, for example, to disinfect a tread of a tire of a vehicle wheel, a shoe sole or a claw of an animal.

A disinfection mat is generally known. The disinfection mat comprises, for example, a liquid-tight bottom layer, a liquid-absorbing intermediate layer, and a liquid-permeable top layer, which are arranged on top of each other. The disinfection mat is laid on a surface, such as a floor, the ground or the street. Subsequently, the disinfection mat is sprayed manually with a disinfection liquid, for example with a watering can. The disinfectant liquid passes through the liquid-permeable top layer and is absorbed in the liquid-absorbing intermediate layer.

If a vehicle, such as a truck or forklift, subsequently drives over the disinfection mat, the tread of a tire of a vehicle wheel comes into contact with the disinfection fluid contained in the intermediate layer via the top layer. In the same way, the disinfecting fluid makes contact with a shoe sole or a claw of an animal when a person or animal stands on the disinfection mat. This reduces the risk of infection.

However, the disinfection fluid evaporates relatively quickly from the disinfection mat. In order to guarantee the disinfecting properties, it is necessary to spray the disinfecting mat regularly with disinfectant fluid through the watering can. In practice, however, it has been found that this does not happen or does not happen sufficiently. As a result, the disinfection mat loses its disinfecting effect, so that the risk of contamination is still considerable.

An object of the invention is to provide a disinfection system in which the reliability is improved.

This object is achieved according to the invention by a disinfection system, in particular for disinfecting a tread of a tire of a vehicle wheel, a shoe sole or a claw of an animal, comprising a disinfection mat, and a feeding device for supplying a disinfecting liquid to the disinfection mat, wherein the supply device is provided with a supply line for supplying the disinfection fluid to the disinfection mat and a device for supplying the disinfection fluid to the supply line under pressure, the supply line being connected to the disinfection mat, and wherein the supply line is arranged through the disinfection mat and is provided with lateral outflow openings for supplying the disinfection fluid to the disinfection mat.

According to the invention, the disinfection mat does not have to be sprayed manually, but the supply device is designed for automatically supplying disinfection fluid to the disinfection mat. The device for supplying the disinfection liquid to the supply line under pressure moves the disinfection liquid through the supply line to the disinfection mat. The disinfecting liquid comprises, for example, water and disinfectant. The disinfection fluid then flows out of the supply line and ends up in the disinfection mat. The supply line is connected to the disinfection mat and is laid through the disinfection mat. Since the supply line is provided with lateral outflow openings for supplying the disinfection liquid to the disinfection mat, the disinfection liquid flows from the supply line into the disinfection mat.

Because the supply line extends through the disinfection mat, the disinfection fluid is distributed over the disinfection mat. As a result, the disinfection mat has a disinfecting effect over the entire or substantially entire surface thereof. With the supply line and the device for supplying the disinfecting liquid under pressure, the supply of disinfecting liquid to the disinfecting mat can be accurately controlled. As a result, the disinfection mat always contains sufficient disinfection fluid to guarantee the disinfecting properties. This increases the reliability of the disinfection system.

A further advantage is that the disinfection system according to the invention is more user-friendly. Instead of spraying the disinfection mat with a heavy watering can with chemical disinfection fluid, whereby the disinfection fluid often spills on a person, the automatic supply of disinfection fluid to the disinfection mat can be safely and accurately dosed with the automatic feed device according to the invention. At the same time, the disinfection mat with the automatic feed can remain substantially flat, so that a vehicle can drive over it.

It is possible that the device for supplying the disinfection liquid under pressure to the supply line is provided with a liquid pump, which comprises a first inlet for water and a second inlet for disinfectant, the liquid pump comprising an outlet for the disinfection liquid, which is connected to the supply line. The water supplied via the first inlet and the disinfectant supplied to the second inlet 35 are mixed in the liquid pump to form the disinfectant liquid. The disinfection fluid then leaves the fluid pump through the outlet. Since the disinfectant liquid is made by mixing water and concentrated disinfectant in the liquid pump, the concentrated disinfectant is mixed with water just prior to feeding to the disinfectant mat. This is particularly beneficial for maintaining the disinfecting properties.

The disinfection mat can be designed in various ways. For example, the disinfection mat is provided with a bottom layer and a top layer applied to the bottom layer, the top layer being substantially liquid-permeable. The supply line 10 extends, for example, between the bottom layer and the top layer. The bottom layer can be substantially liquid-tight. It is thereby possible for an intermediate layer to be provided between the lower layer and the upper layer, the intermediate layer being liquid-absorbent.

The bottom layer is made of, for example, EPDM or EPDM rubber, while the top layer can comprise a PP cloth. The intermediate layer is made of an absorption material that can absorb a considerable amount of disinfecting liquid. However, other materials are also possible.

The disinfection mat with its bottom layer is laid inside or outside on a surface, such as a floor, the ground or the street. The disinfection mat is flat, so that a vehicle can drive over it. The disinfection mat has, for example, a height that is smaller than 10 cm, such as smaller than 5 cm or smaller than 2 cm.

In one embodiment the disinfection mat has a rectangular shape with two long sides and two narrow sides, the supply line extending substantially parallel to the long sides. During use, a vehicle travels in the longitudinal direction over the disinfection mat, i.e. in the longitudinal direction of the supply line. This makes the supply line less susceptible to wear, which is favorable for its service life. At the same time, the disinfection fluid can be distributed substantially over the entire disinfection mat.

In one embodiment the supply line comprises a flexible hose which is received in a substantially rigid housing. The housing can be made of plastic or metal, such as aluminum. The housing is, for example, designed as a gutter or tube in which the flexible hose is received. This protects the flexible hose when a heavy vehicle drives over it, such as a truck or forklift.

In one embodiment, the amount of the disinfection fluid that is supplied to the disinfection mat by the feed device is controllable. For example, a valve can be provided in the supply line to control the mass flow of disinfection fluid to the disinfection mat. If the supply device comprises a liquid pump, the amount of the disinfecting liquid that is supplied by the liquid pump under pressure to the supply line can be controllable, for example by switching the liquid pump on / off or setting the capacity of the liquid pump.

It is possible that the disinfection system is provided with at least one sensor and a control unit, which is connected to the sensor for receiving a measurement signal from the sensor and to the feed device for delivering a response in response to the measurement signal from the sensor. control signal to the supply device for controlling the amount of the disinfection liquid that is supplied by the supply device to the disinfection mat.

The sensor can be designed in various ways. For example, the sensor comprises an air humidity sensor. If the disinfection mat is placed on a surface of a room, the humidity sensor can measure the humidity in that room. The air humidity has an influence on the speed at which the disinfection fluid evaporates from the disinfection mat. Depending on the humidity measured by the sensor, the control unit can send a control signal to the feed device to top up the disinfection mat with disinfection fluid.

It is possible that the sensor comprises a level sensor which is arranged in the disinfection mat for detecting a filling level of the disinfection fluid in the disinfection mat. To ensure the disinfecting effect of the disinfection mat, it is desirable that the filling level of the disinfection fluid in the disinfection mat be above a minimum level in the disinfection mat. The control unit receives the measurement signal from the level sensor and can sense if the disinfection fluid fill level drops below the minimum level. The control unit then generates a control signal that is supplied to the feed device to cause a desired amount of disinfectant to flow to the disinfectant mat.

In one embodiment, the disinfection system is provided with a time switch for switching on and switching off the supply of the disinfection liquid to the disinfection mat by the supply device. With the time switch the disinfection fluid can be supplied to the disinfection mat at predetermined times. The times are set in such a way that the disinfection mat does not "dry out" and sufficient disinfection fluid remains in the disinfection mat.

In one embodiment, the disinfection system comprises a plurality of disinfection mats, wherein the supply line is provided with a conveyor line portion and a plurality of supply line portions which are each connected from the conveyor line portion to one of the disinfection mats in each case. The supply line portions are branched from the transport line portion. Each disinfection mat is connected to the common liquid pump by means of one of the supply line sections and the transport line section. To provide a plurality of disinfectant mats with disinfectant liquid, only one liquid pump is used. The disinfection system with several disinfection mats is therefore relatively cheap.

For example, in a horticultural company or other company dozens of disinfection mats are needed. It is known to manually top up the disinfection mats 5-7 times a day to keep the disinfection mats sufficiently moist. This means that a full manpower is required to spray the disinfection mats. According to the invention, the disinfection mats can be automatically kept wet, which leads to a saving on labor costs.

It is possible that each supply line section is provided with a control valve. The mass flow from the transport line section via the supply line section to the disinfection mat can be controlled by the control valve. For example, the supply line portion can be closed by the control valve. The control unit can be connected to the control valves for controlling it. In that case, the control unit determines at which times which disinfection mats are added.

The invention also relates to a greenhouse, comprising a cultivation space for growing crops, and a treatment space for treating crops, wherein the treatment space is connected to the cultivation space through at least one passage for transporting crops from the cultivation space to the treatment space and vice versa, as well as a disinfection system as described above, wherein the disinfection mat of the disinfection system is arranged in the treatment space or in the passage. For example, forklifts and auction trolleys often pass through the passage from the treatment room to the cultivation room and vice versa. Contamination of the growing area can lead to the loss of the crops in the growing area. With the disinfection system according to the invention, the risk of contamination can be considerably reduced.

Incidentally, in addition to agriculture and horticulture, the disinfection system according to the invention can also be used in the food industry, on agricultural companies, in warehouses, airports, chemical companies, schools and public buildings.

The invention further relates to a method for operating a disinfection system as described above, comprising applying the disinfection mat to a substrate, and supplying the disinfection liquid to the supply line by means of the device for supplying the disinfection liquid under pressure. 6-disinfection fluid on the disinfection mat. The device for supplying the disinfecting liquid to the supply line under pressure is, for example, a liquid pump.

It is thereby possible to measure a quantity, such as the air humidity and / or the filling level of the disinfection fluid in the disinfection mat, wherein the supply of the disinfection fluid to the disinfection mat is controlled depending on the measured quantity. The supply of the disinfection fluid to the disinfection mat can also be controlled by means of a time switch.

The invention further relates to a disinfection system, in particular for disinfecting a tread of a tire of a vehicle wheel, a shoe sole or a claw of an animal, comprising a disinfection mat, and a supply device for automatically supplying a disinfection fluid to the disinfection mat. This disinfection system can be designed as described in one or more of claims 1-15.

It is possible here for the automatic supply device to be provided with a liquid pump or another device for supplying a disinfecting liquid to the supply line under pressure. For example, that device comprises a holder for disinfection fluid which is arranged at a height above the disinfection mat. The disinfection liquid then flows under the influence of gravity under pressure into the supply line and via the supply line into the disinfection mat. There is, for example, a valve in the supply line for controlling the supply of disinfecting liquid.

In addition, it is furthermore possible that the disinfecting liquid is made by diluting concentrated disinfectant with water and storing the diluted disinfecting liquid in the container. The diluted disinfectant loses its disinfectant effect over time. Nevertheless, the automatic supply of the diluted disinfection fluid to the disinfection mat can be controlled, for example with the valve in the supply line, that disinfection with the disinfection mat is guaranteed.

The invention also relates to a method for operating a disinfection system with a disinfection mat, in particular for disinfecting a tread of a tire of a vehicle wheel, a shoe sole or a claw of an animal, comprising applying the disinfection mat on a substrate, and the automatic addition of disinfection fluid to the disinfection mat. This method can comprise the measures according to claims 18 and / or 19.

The invention will now be further elucidated with reference to an exemplary embodiment shown in the drawing.

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Figure 1 shows schematically a first embodiment of a disinfection system according to the invention.

Figure 2 shows a cross-sectional view according to II-II in Figure 1.

Figure 3 shows schematically a second embodiment of a disinfection system 5 according to the invention.

Figure 4 shows schematically an embodiment of a greenhouse with a disinfection system according to the invention.

The disinfection system 1 comprises a disinfection mat 3, which is laid down on a surface, such as a floor, the ground or the street. In this exemplary embodiment, the disinfection mat 3 has a rectangular shape with two long sides and two narrow sides. A tire of a vehicle wheel can travel over the disinfection mat 3 in the longitudinal direction to disinfect its running surface. A person with footwear can also stand on the disinfection mat 3 to disinfect the shoe soles.

The disinfection mat 3 comprises a substantially liquid-tight bottom layer 14 made of EPDM rubber. The lower surface of the bottom layer 14 has an anti-slip effect, so that the disinfection mat 3 does not or hardly moves over the substrate when a vehicle wheel drives over the disinfection mat 3. A liquid-absorbing intermediate layer 15 is provided on the upper surface of the lower layer 14. The intermediate layer 15 comprises a spongy material. To reduce fouling and wear of the intermediate layer 15, the intermediate layer 15 is covered by a liquid-permeable top layer 16. The top layer 16 is made, for example, of a porous cloth, such as PP filter fabric. The bottom layer 14, intermediate layer 15 and top layer 16 are attached to each other.

The disinfection system 1 comprises a feed device 5 for automatically supplying disinfectant liquid to the disinfectant mat 3. In this exemplary embodiment, the feed device 5 comprises a controllable liquid pump 7, which is provided with two inlets 8, 9 and an outlet 10. The liquid pump 7 is for example a dosing pump. The first inlet 8 can be connected to a water supply, such as a water pipe or a reservoir with rainwater. A container with concentrated disinfectant can be connected to the second outlet 9. The liquid pump 7 pumps the water and the concentrated disinfectant in a desired ratio. The disinfecting liquid thus formed leaves the liquid pump 7 via the outlet 10.

The mass flow of disinfecting liquid from the outlet 10 is adjustable by means of the control unit 23 and / or the time switch 24, which are connected to the adjustable liquid pump 7. The outlet 10 flows into a supply line 6 which is connected to the disinfection mat 3. The disinfection fluid can be supplied to the disinfection mat 3 by means of -8- of the supply line 6. Optionally, a control valve is provided in the supply line 6 (not shown), which can be connected to the control unit 23 so that the mass flow through the supply line 6 by means of the control valve is adjustable.

In this exemplary embodiment, the supply line 6 comprises a flexible hose 18. The flexible hose 18 is arranged in the longitudinal direction of the disinfection mat 3 through the intermediate layer 15 between the lower layer 14 and upper layer 16. The flexible hose 18 is accommodated in a housing 19 to protect the flexible hose 18 against damage, for example when a forklift truck or auction vehicle drives over it. In this exemplary embodiment, the housing 19 comprises two upright strips, for example of plastic or aluminum.

In the part of the supply line 6 that extends through the disinfection mat 3, lateral outflow openings are provided (not shown). The liquid pump 7 moves the disinfection fluid from the outlet 10 via the supply line 6 to the disinfection mat 3. The disinfection fluid then flows through the outflow openings in the intermediate layer 15, which absorbs the disinfection fluid.

In order to control the automatic supply of disinfection fluid to the disinfection mat 3, two sensors 21, 22 are provided in this exemplary embodiment. The sensor 21 is an air humidity sensor for measuring the air humidity in the environment of the disinfection mat 3. The sensor 22 is a level sensor which is arranged at a desired minimum level in the disinfection mat 3. The air humidity sensor 21 and the level sensor 22 are connected to the control unit 23, for example by means of a cable or wireless (not shown).

The control unit 23 receives a measurement signal from the sensors 21, 22. In response to the measurement signal from the sensors 21, 22, ie depending on the measured humidity and / or observing that the filling level of the disinfection fluid in the disinfection mat 3 has fallen to below the desired minimum level, the control unit 23 sends a control signal to the liquid pump 7 to control the mass flow of disinfecting liquid from the outlet 10. The liquid pump 7 can also be connected to a time switch 24 which switches the liquid pump 7 on and off at predetermined times.

Figure 3 shows schematically a second embodiment of the disinfection system 30 according to the invention. The same or similar parts are indicated with the same reference numerals. The disinfection system shown in Figure 3 comprises a plurality of disinfection mats 3, each of which is connected via a supply line 6 to a common liquid pump 7.

In this exemplary embodiment, the supply line 6 comprises a transport line part 26 and supply line parts 27 which branch from the transport line part 26 to the disinfection mats 3. The transport line part 27 which is connected to the outlet 10 of the liquid pump 7 comprises a tap 36 (optional) ). Each conveyor line portion 26 is provided with a control valve 28 for controlling the mass flow of the disinfecting liquid through the conveyor line portion 27 to the disinfection mat 3. The control valves 28 are, for example, designed as shut-off valves for closing / opening the associated conveyor line part 27.

Each control valve 28 is connected to the control unit 23, ie each control valve 28 can be controlled by the control unit 23. This is schematically indicated by a dotted line for the control valve 28 shown in Figure 3 on the left, but the other control valves 28 are also connected to the control unit 23, for example by cable or wireless.

Incidentally, the disinfection mats can also each be connected to the liquid pump through a separate supply line.

The first inlet 8 is connected to a water supply network 40. To prevent contamination of the water supply network 40 due to backflow, a backflow prevention device is arranged between the water supply network 40 and the first inlet 8 of the liquid pump 7. Since the first inlet 8 can also be connected to a different water supply, the backflow prevention device is optional.

In this exemplary embodiment, the backflow prevention device successively comprises a valve 41, a first non-return valve 42, a filter 43, a tap 44 and a second non-return valve 45, viewed in the direction from the water supply network 40 to the first inlet 8 of the liquid pump 7. Although not shown in Figure 1, such or other backflow prevention device may also be provided with that embodiment. The second inlet 9 of the liquid pump 7 is connected to a holder 37 that is filled with concentrated disinfectant.

Figure 4 shows a greenhouse with a cultivation space 30 for growing crops, and a treatment space 31 for treating crops, such as sorting, packaging and / or loading crops. The treatment space 31 is connected through a passage 32 to the cultivation space 30. In this exemplary embodiment, the treatment space 31 comprises a loading space 51 with an access door 38 for vehicles, such as trucks or forklifts. Next to the entrance door 38 there is an entrance 39 for people. A corridor 50 runs from the loading space 51 to the passage 32. The greenhouse can of course be arranged differently.

The greenhouse is provided with a disinfection system with a plurality of disinfection mats 3 as described with reference to figure 2. The disinfection mats 3 are arranged at the location of the access door 38, the entrance 39, the passage 32 and at other places of the treatment room 31. If, for example, an auction vehicle drives from outside via the access door 38, the loading space 31, the corridor 50 and the passage 32 to the cultivation space 30, the tires of the auction vehicle are disinfected by three different disinfection mats. The risk of contamination of the crop in the cultivation space 30 is therefore minimal.

The liquid pump 7 is connected to the control unit 23 in an office space of the treatment space 31 (schematically indicated by a dotted line). The control unit 23 is, for example, integrated with a climate computer for controlling the climate in the cultivation area of the greenhouse. The control unit 23 and the liquid pump 7 are connected to each other by a control cable or wirelessly. The liquid pump 7 is connected via supply lines 6 to the disinfection mats 3, as schematically indicated by solid lines.

The invention is not limited to the exemplary embodiment represented in the figures. The person skilled in the art can make various modifications that fall within the scope of the invention. For example, it is possible that the liquid pump has been replaced by an alternative device for supplying the disinfecting liquid to the supply line under pressure. The device for supplying the disinfection liquid to the supply line under pressure comprises, for example, a holder for receiving the disinfection liquid which is arranged at a height above the disinfection mat. In that case, the disinfection liquid can flow to the disinfection mat under the influence of gravity.

Claims (18)

A disinfection system (1), in particular for disinfecting a tread of a tire of a vehicle wheel, a shoe sole or a claw of an animal, comprising a disinfection mat (3), and a feeding device (5) for feeding a disinfection fluid on the disinfection mat, the supply device (5) being provided with a supply line (6) for supplying the disinfection fluid to the disinfection mat (3) and a device (7) for supplying the disinfection fluid to the supply line under pressure ( 6), characterized in that the supply line (6) is connected to the disinfection mat (3), and the supply line (6) is arranged through the disinfection mat (3) and is provided with lateral outflow openings (20) for supplying the 10 disinfection fluid on the disinfection mat (3). Disinfection system according to claim 1, wherein the device (7) for supplying the disinfection liquid under pressure to the supply line (6) is provided with a liquid pump (7), which has a first inlet (8) for water and a second inlet (8). 9) for disinfectant, and wherein the liquid pump (7) comprises an outlet (10) for the disinfectant liquid, which is connected to the supply line (6). Disinfection system according to claim 1 or 2, wherein the disinfection mat (3) is provided with a lower layer (14) and an upper layer 20 (16) arranged on the lower layer (14), the upper layer (16) being substantially liquid-permeable. A disinfection system according to claim 3, wherein the bottom layer (14) is substantially liquid-tight. Disinfection system according to claim 3 or 4, wherein an intermediate layer (15) is provided between the lower layer (14) and the upper layer (16), and wherein the intermediate layer (15) is liquid-absorbent. 6. Disinfection system according to any of the preceding claims, wherein the disinfection mat (3) has a rectangular shape with two long sides and two narrow sides, and wherein the supply line (6) extends substantially parallel to the long sides. - 12- Disinfection system according to one of the preceding claims, wherein the supply line (6) comprises a flexible hose (18) which is accommodated in a substantially rigid housing (19). Disinfection system according to one of the preceding claims, in which the mass flow of the disinfection fluid supplied by the feed device (5) to the disinfection mat (3) is controllable. 9. Disinfection system according to claim 8, wherein the disinfection system (1) is provided with at least one sensor (21, 22) and a control unit (23), which is connected to the sensor (21, 22) for receiving a measurement signal of the sensor (21, 22) and with the feed device (5) for delivering a control signal to the feed device (5) in response to the measurement signal from the sensor (21, 22) for controlling the amount of the disinfecting liquid which is supplied by the supply device (5) to the disinfection mat (3). The disinfection system of claim 9, wherein the sensor comprises an air humidity sensor (21). A disinfection system according to claim 9 or 10, wherein the sensor comprises a level sensor (22) arranged in the disinfection mat (3) for detecting a filling level of the disinfection fluid in the disinfection mat (3). 12. Disinfection system according to one of the preceding claims, wherein the system 25 is provided with a timer (24) for switching on and switching off the supply of the disinfection fluid to the disinfection mat (3) by the supply device (5) at predetermined times. 13. Disinfection system as claimed in any of the foregoing claims, wherein a plurality of disinfection mats (3) are provided, and wherein the supply line (6) is provided with a transport line part (26) and a plurality of supply line parts (27) which are each from the transport line part (26) connected to one of the disinfection mats (3). 14. Disinfection system according to claim 13, wherein each supply line section (27) is provided with a control valve. - 13- A greenhouse, comprising a cultivation space (30) for growing crops, and a treatment space (31) for treating crops, wherein the treatment space (31) is connected to the cultivation space (30) by at least one passage (32) for transporting crops between the treatment space (31) and the cultivation space (30), as well as a disinfection system (1) according to one of the preceding claims, wherein the disinfection mat (3) of the disinfection system (1) is arranged in the treatment space ( 31). Method for operating a disinfection system (1) according to one of the preceding claims, comprising: - applying the disinfection mat (3) to a substrate, - feeding it under pressure device (7) of the disinfection liquid to the supply line (6) supplying disinfection liquid to the supply line (6) and supplying the disinfection liquid from that device (7) via the supply line (6) to the disinfection mat (3). 17. Method as claimed in claim 16, wherein a quantity is measured, such as the air humidity and / or the filling level of the disinfection liquid in the disinfection mat, and wherein the supply of the disinfection liquid to the disinfection mat (3) is controlled depending on the measured quantity. A method according to claim 16 or 17, wherein supplying the disinfection fluid to the disinfection mat (3) is controlled by means of a time switch (24). 25