BE1022870B1 - Dispenser for the distribution of hand cleansers - Google Patents

Abstract

This invention relates to a dispenser for dispensing hand cleansers. More specifically, this invention relates to a dispenser that allows the efficient distribution of hand cleaning agents. This invention also relates to a method for distributing hand cleansers. More specifically, this invention relates to a method which allows the efficient distribution of hand cleansing agents.

Description

DISPENSER FOR DISTRIBUTION OF HAND CLEANING PRODUCTS TECHNICAL FIELD

This invention relates to a dispenser for the distribution of hand cleaning means. More specifically, this invention relates to a dispenser that permits the efficient distribution of hand cleaning agents. This invention also relates to a method for distributing hand cleaning agents. More specifically, this invention relates to a method that permits the efficient distribution of hand cleaning means.

TECHNOLOGICAL BACKGROUND OF THE INVENTION

Good hand care is a critical factor for ensuring the comfort of consumers. For example, regularly cleaning the hands gives a pleasant, fresh feeling. This is related to removal of body secretions and possibly dirt from the hands. In addition, good hand care can keep the skin of the hands young and flexible, for example through hydration. Hand hydration can be achieved by the addition of hand wetting agents to a hand cleaning fluid, for example as described in US2009226498, which is hereby incorporated by reference.

In addition to providing comfort in daily life, good hand care also brings significant benefits in the medical field. For example, good hand hygiene plays an important role in preventing the spread of infections, bacteria and / or diseases. This is the case in hospitals, in the home environment, and in public places. In hospital environments, rigorous maintenance of good hand hygiene is firmly established. For example, many hospitals have implemented hand cleaning regulations that require staff to wash or clean their hands at regular intervals or when performing certain operations such as entering a patient's room. Because good care entails a pleasant, fresh feeling that significantly increases living comfort, and because good hand hygiene is important from a medical point of view, good hand hygiene is important not only in hospitals, but also in domestic environments and in public places. However, the use of soap and water is often cumbersome and is not useful in every room. So there is a need for an alternative to soap and water in areas where no water is available, or in situations where washing hands with soap and water would be too cumbersome. That is why the use of hand cleansers that are not water-based is taking place in more and more daily situations.

For example, the effectiveness of placing dispensers for such hand cleansers in easily accessible places has been demonstrated in a medical context in [C. White et al., The effect of hand hygiene on illness rate among students in university residence halls, Am J Infect Control. 2003 Oct; 31 (6): 364-70.]. This study included the monitoring of 430 students from four different student residences during the fall semester at the Boulder campus of the University of Colorado. Student accommodation locations were divided into product groups and control groups. In product groups, alcohol gel hand cleaner dispensers were installed in every room, bathroom, and dining room. The effect of placing these alcohol gel hand cleaner dispensers was statistically analyzed. In particular, the difference between the product groups and the control groups was investigated with regard to syndromes, cases of disease, and absenteeism. This study showed that placing alcohol gel hand cleaner dispensers in easily accessible places resulted in improved hand hygiene. On the one hand, this was the result of a higher frequency of hand washing, which was caused by an awareness of the importance of good hand hygiene. On the other hand, this was caused by the regular use of alcohol gel hand cleaner. The cumulative effect of these effects resulted in fewer symptoms related to upper respiratory tract diseases, fewer cases of illness, and lower absenteeism.

In the current state of the art, however, dispensers for distributing hand cleaners are not as convenient to use. For example, a switch should be pressed manually so that hand cleaner is distributed; which is counterproductive since coming into contact with many dirty hands turns this switch into a hotbed of germs. In addition, dispensers for hand cleaners according to the current state of the art are difficult to apply in the daily environment, such as in retail spaces, living spaces, restaurants and so on.

The present invention provides a solution to the above challenges.

SUMMARY

In a first aspect, the present invention comprises a dispenser (100) for distributing hand cleaning agents into living spaces, office spaces, retail spaces or medical facilities - which comprises a fluid container (110); and - comprising a housing (120); characterized in that - the housing (120) comprises batteries (122), a fluid system (124), a proximity sensor (123), a light emitting body (126), a microprocessor (121), and a spray system; - the batteries (122) are configured to provide electrical power for the microprocessor (121), the proximity sensor (123), the fluid system (124), and the light emitting body (126); - the microprocessor (121) is operatively connected to the proximity sensor (123) and to the fluid system (124); - the light emitting body (126) is configured to indicate a cleaning location (210) on the hand (s) (200); - the proximity sensor (123) is configured to detect the presence of one or two hands (200) near the cleaning location (210); - the proximity sensor (123) is configured to give a signal to the microprocessor (121) when one or two hands (200) are detected in the cleaning location (210); - the microprocessor (121) is configured to give a signal to the fluid system (124) after obtaining a hand detection signal from the proximity sensor (123); - the fluid system (124) is configured to pressurize a hand cleaning agent from the liquid container (110) to the spray system after obtaining said signal from the microprocessor; and - the spray system is configured to, upon receiving cleaning agent from the fluid system (124), spray a spray comprising the disinfectant toward the cleaning location (210) on the hand (s) (200).

In some embodiments, the dispenser (100) is characterized in that - the light emitting body (126) is configured to burn only when the presence of one or two hands (200) is detected by the proximity sensor (123); - the microprocessor (121) is configured to record how long hands (200) were detected at the cleaning site (210); and - the microprocessor (121) is configured to only give a signal to the fluid system (124) when the microprocessor (121) has received a continuous signal from the proximity sensor (123) for 0.5 to 5, preferably 1 to 3, preferably about 1.5 seconds.

In some embodiments, the dispenser (100) is characterized in that - the liquid container (110) comprises a sensor (111) configured to measure the liquid level in the liquid container (110), and that the housing (120) has a display (125) ) configured to display the liquid level in the liquid container (110); and - the display is operatively connected via the microprocessor (121) to the liquid level sensor (111) in the liquid container (110).

In some embodiments, the dispenser (100) is characterized in that - the display (125) is a light emitting body embedded in the housing (120); - the display (125) is configured to light when the liquid level has reached a critical value; and - the display (125) is configured not to light when the liquid level has not reached this critical value.

In some embodiments, the dispenser (100) is characterized in that the liquid container (110) is removably attached to the housing.

In some embodiments, the dispenser (100) is provided with a receptacle under the spray system so that the cleaning location (210) is above the receptacle and below the spray system.

In some embodiments, the dispenser (100) is configured to be mountable on a wall or stand (300).

In some embodiments, the dispenser (100) is provided with a post (300) to which one or more dispensers (100) can be connected.

In a second aspect, the present invention comprises a method for distributing hand cleaning agents into living spaces, office spaces, retail spaces and / or medical facilities - wherein a dispenser (100) is used - which comprises a liquid container (110); and - comprising a housing (120); characterized in that - the housing (120) of the dispenser comprises batteries (122), a fluid system (124), a proximity sensor (123), a light emitting body (126), a microprocessor (121), and a spray system; - the batteries (122) of the dispenser (100) provide electrical power for the microprocessor (121), the proximity sensor (123), the fluid system (124), and the light emitting body (126); - the presence of a cleaning location (210) is indicated on the hand (s) (200) by means of a luminous body (126); - the presence of one or two hands (200) in the cleaning location (210) is detected by means of a proximity sensor (123); - the proximity sensor (123) gives a signal to the microprocessor (121) when one or two hands (200) are detected near the cleaning location (210); - the microprocessor (121) gives a signal to the fluid system after obtaining a hand detection signal from the proximity sensor (123); - the fluid system (124) conveys a hand cleaning means from the liquid container (110) to the spray system under pressure after obtaining a signal from the microprocessor (121); and - the spray system receives cleaning means from the fluid system (124) and sprays it as a mist toward the cleaning location (210) on the hand (s) (200).

In some embodiments, the method is characterized in that - the light emitting body (126) lights up only when the presence of one or two hands (200) is detected by the proximity sensor (123); - the microprocessor (121) records how long the hands (200) have been detected at the cleaning site (210); and - the microprocessor (121) only gives a signal to the fluid system (124) when the microprocessor (121) has received a continuous signal from the proximity sensor (123) for 0.5 to 5, preferably 1 to 3, most preferably about 1.5 seconds .

In some embodiments, the method is characterized in that - a sensor (111) in the liquid container (110) measures the liquid level in the liquid container (110); - the sensor (111) transmits the measured liquid level to the microprocessor (121); - the microprocessor (121) forwards a signal to a display (125) in the housing based on the measured liquid level; and - the display (125) in the housing shows the liquid level in the liquid container (110).

In some embodiments, the display (125) is designed as a luminous body, characterized in that - the display (125) lights up when the liquid level has reached a critical value; and - the display (125) does not light when the liquid level has not reached this critical value.

In some embodiments, the method is characterized in that the liquid container (110) is removably attached to the housing (120).

In some embodiments, the method is characterized in that a collection tray collects any spilled cleaning agent below the cleaning location.

In some embodiments, the method is characterized in that the dispenser (100) is mounted on a wall.

In some embodiments, the method is characterized in that the dispenser (100) is provided with a post (300) to which one or more dispensers (100) can be connected.

DESCRIPTION OF THE FIGURES

Figure 1 shows a dispenser (100) according to a specific embodiment of the present invention.

Figure 2 shows a dispenser (100) according to a specific embodiment of the present invention indicating a cleaning location (210) on a hand (200).

Figure 3 shows a schematic representation of some components of a dispenser (100) according to a specific embodiment of the present invention. Figure 4 shows a dispenser (100) according to a specific embodiment of the present invention indicating a cleaning location (210) on a hand (200), and mounted on a stand (300) with base (310).

Figure 5A shows an example of a dispenser according to the invention as well as the gradual opening of the housing by sliding downwards so that the batteries become visible.

Figure 5B shows the spray direction of the example of Figure 5A on a frontal and side view.

Figure 5C shows a dispenser without integrated receptacle on the left-hand side, and Figure 5C shows a dispenser with integrated receptacle on the right-hand side. Figure 5D shows the dispenser of Figure 5A where the hand is maintained to operate the system.

Figure 5E shows the dispenser of Figure 5A with an LED beam directed at the hand so that the person can hold his hand in the right place and how the spray system then comes into operation and how the hands can then be cleaned. Figure 6 shows the mounting on the wall of a dispenser with a mounting piece that can be fixed with screws, whereby the housing can be mounted each with their mounting method in side view. .

Figure 7 shows on the left an example of a wall model of the dispenser and on the right an upright model of the dispenser.

Figure 8 shows possible liquid containers (also called bottles or refills).

Figure 9 shows the liquid container of Figure 8 in which the closure consists of a technical cap with snap connection (first use seal) and a cover. In this way the bottle is equipped with a double cap.

Figure 10 describes an embodiment of the dispenser that is provided with a collection system.

DETAILED DESCRIPTION

As used further in this text, the singular forms "one," "the," "the," include both the singular and the plural unless the context is clearly different.

The terms "include", "includes" as used further are synonymous with "inclusive", "include" or "contain," contain "and are inclusive or open and do not exclude additional, unnamed members, elements or method steps. The terms "include", "includes" include the term "include".

The enumeration of numerical values based on numerical ranges includes all values and fractions in these ranges, as well as the cited endpoints.

The term "about", as used when referring to a measurable value such as a parameter, a quantity, a duration, and so on, is intended to encompass variations of +/- 10% or less, preferably +/- 5% or less, more preferably +/- 1% or less, and even more preferably +/- 0.1% or less, from and from the specified value, insofar as the variations apply to function in the disclosed invention . It is to be understood that the value to which the term "approximately" refers per se has also been disclosed.

All documents quoted in the current specification are fully incorporated herein by reference.

Unless defined otherwise, all terms disclosed in the invention, including technical and scientific terms, have the meaning that those skilled in the art usually understand. As a further guide, definitions are included for further explanation of terms used in the description of the invention.

This invention relates to dispensers for hand cleaning agents, and a method for the distribution of hand cleaning agents in living spaces, office spaces, retail spaces and / or medical facilities. Some dispensers for hand cleaning agents according to the present invention include a liquid container and a housing. The housing includes batteries configured to provide electrical energy to the various electronic or electromechanical components of the dispenser. The liquid container preferably comprises a liquid level sensor which is operationally connected to a microprocessor in the housing. When the liquid level sensor detects that the liquid level in the liquid container is lower than a critical value, the liquid level sensor sends a signal to the microprocessor. Following this signal, the microprocessor sends a signal to an operationally connected display which is also included in the housing. The display will then light up so that a user can replace the empty fluid container. The housing also includes a proximity sensor configured to detect the presence of hands in a cleaning location. When hands are detected in a cleaning location, the proximity sensor sends a signal to the microprocessor. The microprocessor then sends a signal to a light emitting element, preferably a laser, which indicates the cleaning location on the hands. When the hands are detected in the cleaning location for two consecutive seconds, a signal is sent from the microprocessor to the fluid system. The fluidic system pumps detergent to a spray system that is configured to spray detergent in the form of a spray to the cleaning location. Preferably 1 to 5 ml, more preferably 2 to 4 ml, and most preferably about 3 ml of cleaning fluid is sprayed in the direction of the cleaning location

In a first aspect, the present invention comprises a dispenser (100) for distributing hand cleaning agents into living spaces, office spaces, retail spaces or medical facilities - which comprises a fluid container; and - which comprises a housing; characterized in that - the housing comprises batteries, a fluid system, a proximity sensor, a light emitting body, a microprocessor, and a spray system; - the batteries are configured to provide electrical power for the microprocessor, the proximity sensor, the fluid system, and the light emitting body; - the microprocessor is operationally connected to the proximity sensor and to the fluid system; - the light emitting body is configured to indicate a cleaning location on the hand (s); - the proximity sensor is configured to detect the presence of one or two hands near the cleaning location; - the proximity sensor is configured to give a signal to the microprocessor when one or two hands are detected in the cleaning location; the microprocessor is configured to give a signal to the fluid system after obtaining a hand detection signal from the proximity sensor; - the fluid system is configured to pressurize a hand cleaning agent from the liquid container to the spray system after obtaining said signal from the microprocessor; and - the spraying system is configured to, upon receiving cleaning means from the fluid system, spray a spray comprising the cleaning means toward the cleaning location on the hand (s).

The spray system and the light emitting body are preferably embedded in a hand cleaning unit (130) located at the bottom of the housing.

The term "mist" as used herein refers to a suspension of liquid droplets in a gas.

The term "liquid container" as used herein refers to a container for cleaning liquid. This fluid container is available separately and is filled with the cleaning fluid and has a closure.

The liquid container preferably has a volume of 0.1 to 5 liters, more preferably a volume of 0.2 to 2 liters, and most preferably a volume of 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1, or 1.2 liters.

The term "hand cleaning fluid" as used herein refers to a supplement or alternative to hand washing with soap and water described. The present invention has been described in the context of dispensing hand cleaning fluid in the form of a liquid solution that is sprayed as a mist. Hand cleaning fluids can, however, also be implemented as gel or foam, but not in the context of the present invention. The active ingredient in a hand cleaning fluid can be, for example, an alcohol, preferably isopropanol, ethanol and / or n-propanol. More preferably, the active component of the hand cleaning fluid is ethanol in an aqueous solution, and the ethanol concentration in the hand cleaner is between 60% and 85%. The ethanol concentration in the hand cleaner is approximately 70%. Note that these concentrations are shown here as volume concentrations. Hand cleaning fluid can also include other substances, for example perfume, substances that hydrate the hands, and / or additional substances to kill germs.

The term "housing" as used herein refers to an object that forms a framed space in which most of the components of the dispenser are included.

The fluid container and housing are preferably configured to be reversibly connected to each other by means of a snap connection.

The term "fluid system" as used herein refers to a fluid transport system that includes a network of one or more pumps, one or more valves, and one or more tubes.

The term "luminous body" as used herein refers to an LED lamp or a laser that is configured to direct a light beam to a cleaning location on the hands (s). The luminous body is preferably designed as a laser.

The term "proximity sensor" as used herein refers to a sensor that can detect the presence of one or two hands at a cleaning location. A proximity sensor is for example an infrared sensor or a capacitive sensor.

With a device according to the present invention, cleaning agents can be applied efficiently to the hand (s) to be cleaned and the location can be chosen by the user on the hand (s) where the spray of cleaning fluid may end up. In addition, manual contact with a switch or the like of the detergent dispenser is avoided, which helps to prevent the spread of germs.

The cleaning agent that is sprayed can comprise an antibacterial agent to form a disinfectant that can be sprayed.

By spraying the cleaning agent as a mist, a large hand surface is efficiently moistened with hand cleaning agent. In addition, spraying the cleaning agent as a mist eliminates the risk of cleaning agent leaking; any droplets of liquid that are sprayed next to the hands are so small that they evaporate before they land on the ground. Preferably, the mist comprises droplets with a diameter of less than 1000 micrometers; more preferably, the drops have a diameter of 50 to 200 microns; the drops preferably have a diameter of approximately 100 micrometers.

Preferably, the fluidic system and the spraying system are configured so that the liquid droplets are atomized in an air stream directed to the hand cleaning location. In this way even relatively small drops can be sprayed efficiently in the direction of the cleaning location.

In some embodiments, the light emitting body is configured to burn only when the presence of one or two hands is detected by the proximity sensor; - the microprocessor is configured to record how long hands were detected at the cleaning site; and - the microprocessor is configured to give a signal to the fluid system only when the microprocessor has received an uninterrupted signal from the proximity sensor for 0.5 to 5, preferably 1 to 3, most preferably about 1.5 seconds. Many proximity sensors cannot distinguish between hands and between other objects, for example a jacket. In this embodiment, since the cleaning fluid is only sprayed when an object is detected for a longer period of time in a cleaning location, it is prevented that passers-by jackets are dusted with hand-cleaning agent each time they enter the cleaning location. The inventors have discovered that a continuous presence of an object in the cleaning site for 0.5 to 5.0, preferably 1.0 to 3.0, preferably about 1.5 seconds, gives a good trade-off between on the one hand the quick and efficient use of the hand cleaner and on the other hand avoiding hand cleaner on the wrong moments are sprayed.

The light emitting element primarily illuminates upon detection of an object in the cleaning location to give visual feedback to a user, so that the user has time to move his hand so that the cleaning location is in the middle of the hand when the cleaning fluid is sprayed. A time span of about 0.5 to 5.0, preferably 1.0 to 3.0, most preferably about 1.5 seconds, appears to be sufficient to give users the time to position their hands properly.

Extinguishing the luminous body when no hands are detected in the cleaning location avoids the waste of energy associated with the continuous burning of the luminous body. In addition, a luminous body that burns continuously in the dispenser can be a disruptive factor in some rooms.

In some embodiments, the fluid container includes a sensor configured to measure the fluid level in the fluid container, and the housing includes a display configured to display the fluid level in the fluid container; and - the display is operatively connected via the microprocessor to the liquid level sensor in the liquid container.

In this way it can be made clear to a user when the liquid container is almost empty.

Preferably, the dispenser also comprises a sensor that can detect when the device is defective, and / or a sensor that can detect when the batteries are low. This additional sensor is also operatively connected to the microprocessor included in the housing, which is configured to send a signal to a corresponding display included in the housing. This corresponding display is preferably an LED lamp, and is configured to give a signal to a user when the batteries are low or when the dispenser is defective.

In some embodiments, the display is a luminous body that is embedded in the housing; - the display is configured to light up when the liquid level has reached a critical value; and - the display is configured not to light when the liquid level has not reached this critical value.

This is an efficient method of anchoring the light emitting body, at a place where a cleaning location can be well indicated.

In some embodiments, the fluid container is removably attached to the housing. The liquid container is then available separately and is already filled with hand cleaning liquid and provided with a closure. To mount a new fluid container, the closure is removed or opened and the fluid container is mounted. The liquid container is usually transparent and can be made in a different color than the rest of the dispenser, such as, for example, light-fluorescent materials.

In this way the liquid container can be replaced efficiently when the cleaning liquid is used up. In particular, the old fluid container is disassembled from the housing, and a new fluid container is mounted on the housing.

In some embodiments, a receptacle is provided under the spray system so that the cleaning location is above the receptacle and below the spray system.

When the dispenser is configured to divide cleaning fluid into a mist that contains relatively many liquids and / or large drops, there may be a risk of spillage of cleaning fluid. Providing a collection tray is an efficient method to prevent excess cleaning fluid from being spilled.

In some embodiments, the dispenser is configured to be mountable on a wall or stand.

By mounting the dispenser on a wall a very efficient use is made of an existing space. In addition, this entails cost savings because no stand must be provided. The dispenser is, for example, mounted on the wall with the aid of screws.

The use of a stand, however, allows greater flexibility for placing the dispenser at any location in a room. For example, an upright can be a three-legged pitch, as is also used in the context of balancing photographic cameras. A post can also be designed as a single leg connected to a base, as shown in Figure 4. The dispenser is preferably connected to a post using a clamp connection. . The length of the stand determines whether a dispenser according to the present invention will be used as a table model or as a standing model. In a table model, the post is preferably between 20 and 50 cm high, more preferably the post is approximately 35 cm high. In a standing model, the dispenser is preferably placed on the stand so that the spray system is at a height of 50 cm to 1.5 m, preferably at a height of 75 cm to 1.25 m, and most preferably at a height of 1.00 m to 1.15 m.

The nozzle is preferably suspended at a height so that the dispenser can be used in a comfortable manner. In the case where the dispenser is used for use by children, for example in a school, the dispenser can also be hung at a lower height, for example at a height of 50 cm to 70 cm.

In some embodiments, the dispenser is provided with a post to which one or more dispensers can be connected. In this way, dispensers can be placed efficiently in places where many people may wish to clean their hands at the same time, for example at the cash register in a store. Dispensers mounted at different heights are useful to allow people of different lengths to clean their hands. This can be done, for example, on one or more stands mounted on 1 foot so that the dispensers can be placed centrally at the different heights in a room.

In a second aspect, the present invention comprises a method for distributing hand cleaning agents into living spaces, office spaces, retail spaces and / or medical facilities - wherein a dispenser is used - which comprises a liquid container; and - which comprises a housing; characterized in that - the housing of the dispenser comprises batteries, a fluid system, a proximity sensor, a luminous body, a microprocessor, and a spray system; - the batteries of the dispenser provide electrical power for the microprocessor, the proximity sensor, the fluid system, and the light emitting body; - the presence of a cleaning location is indicated on the hand (s) using a luminous body; - the presence of one or two hands in the cleaning location is detected using a proximity sensor; - the proximity sensor gives a signal to the microprocessor when one or two hands are detected near the cleaning location; the microprocessor gives a signal to the fluid system after obtaining a hand detection signal from the proximity sensor; - the fluid system transports a hand cleaning agent from the liquid container under pressure to the spray system after obtaining a signal from the microprocessor; and - the spray system receives cleaning agent from the fluid system and sprays it as a mist in the direction of the cleaning location on the hand (s).

The spray system and the light emitting body are preferably embedded in a hand cleaning unit (130) located at the bottom of the housing.

The cleaning agent that is sprayed can comprise an antibacterial agent to form a disinfectant that can be sprayed.

Preferably, the fluidic system and the spraying system are also configured so that the liquid droplets are atomized in an air stream directed to the hand cleaning location. In this way even relatively small drops can be sprayed efficiently in the direction of the cleaning location.

This method comprises spraying the cleaning agent as a mist, efficiently wetting a large hand surface. In addition, spraying the cleaning agent as a mist eliminates the risk of cleaning agent leaking; any droplets of liquid that are sprayed next to the hands are so small that they evaporate before they land on the ground. Preferably the fog comprises droplets with a diameter of less than 1000 micrometers; more preferably, the drops have a diameter of 50 to 200 microns; the drops preferably have a diameter of approximately 100 micrometers.

In some embodiments, the light emitting body lights only when the presence of one or two hands is detected by the proximity sensor; - the microprocessor records how long the hands were detected at the cleaning site; and - the microprocessor only gives a signal to the fluid system when the microprocessor has received a continuous signal from the proximity sensor for 0.5 to 5, preferably 1 to 3, most preferably about 1.5 seconds.

In this way no energy is wasted by having the luminous body burn continuously. In addition, a luminous body that burns continuously in the dispenser can be a disruptive factor in some rooms.

Many proximity sensors cannot distinguish between hands and between other objects, such as a jacket. In this embodiment, since the cleaning fluid is only sprayed when an object is detected for a longer period of time in a cleaning location, it is prevented that passers-by jackets are dusted with hand-cleaning agent each time they enter the cleaning location. The inventors have discovered that a continuous presence of an object in the cleaning site for 0.5 to 5, preferably 1 to 3, preferably about 1.5 seconds, gives a good trade-off between on the one hand the quick and efficient use of the hand cleaner and on the other hand avoiding hand cleaner on the wrong moments are sprayed.

In some embodiments, a sensor in the fluid container measures the fluid level in the fluid container; - the sensor transmits the measured liquid level to the microprocessor; - the microprocessor forwards a signal based on the measured liquid level to a display in the housing; and - the display in the housing shows the liquid level in the liquid container.

In this way it can be made clear to a user when the liquid container is almost empty.

Preferably, it is also detected when the device is defective, and / or when the batteries are low. This information is preferably displayed with the aid of a display included in the housing.

In some embodiments, the display is designed as a luminous body, characterized in that - the display lights up when the liquid level has reached a critical value; and - the display does not light up when the liquid level has not reached this critical value.

A light emitting body, preferably an LED light, can be a very efficient embodiment of the light emitting body that warns of a low liquid level.

In some embodiments, the fluid container is removably attached to the housing.

In this way, the liquid container can be replaced efficiently when the cleaning fluid is used up. In particular, with a cleaning fluid change, the old fluid container is disassembled from the housing, and a new fluid container is mounted on the housing.

In some embodiments, a collection tray collects any spilled cleaning agent below the cleaning location.

When the dispenser is configured to divide cleaning fluid into a mist that contains relatively many liquids and / or large drops, there may be a risk of spillage of cleaning fluid. Providing a collection tray is an efficient method to prevent excess cleaning fluid from being spilled.

In some embodiments, the dispenser is mounted on a wall.

By mounting the dispenser on a wall a very efficient use is made of an existing space. In addition, this entails cost savings because no stand must be provided. The dispenser is for example mounted on the wall by means of screws.

In some embodiments, the dispenser is provided with a post to which one or more dispensers can be connected.

The use of a stand allows great flexibility for placing the dispenser anywhere in a room. For example, an upright can be a three-legged pitch, as is also used in the context of balancing photographic cameras. The dispenser is preferably connected to an upright with the aid of a clamp connection. The upright is preferably provided with a base. The base gives extra stability to the upright by means of an enlargement of the support surface.

In a specific embodiment, the present invention comprises a dispenser (100) as shown in Figures 1 and 2. The dispenser (100) comprises a liquid container (110) and a housing (120). The housing (120) comprises a hand cleaning unit (130) which in turn comprises a proximity detector, a light emitting body, and a spray system. The hand cleaning unit (130) is located at the bottom of the housing (120). The housing (120) further comprises batteries, a fluid system, and a microprocessor. The batteries are configured to provide electrical power for the microprocessor, proximity sensor, fluid system, and luminous body. The microprocessor is operationally connected to the proximity sensor and to the fluid system. The luminous body is configured to indicate a cleaning location on the hands. In particular, the light emitting body is configured to indicate a cleaning location (210) on the hands (200) by means of a light beam (140). The proximity sensor is configured to detect the presence of one or two hands (200) near the cleaning location (210). The proximity sensor is configured to give a signal to the microprocessor when one or two hands (200) are detected in the cleaning location (210). The microprocessor gives a signal to the fluid system when it receives a hand detection signal from the proximity sensor. The fluidic system then transports hand cleaning agent from the fluid container (110) to the spray system under pressure. The spraying system receives the cleaning agent from the fluidic system and sprays a mist comprising the cleaning agent toward the cleaning location on the hands.

In a further specific embodiment, the present invention comprises a method for cleaning hands in living spaces, office spaces, retail spaces, and / or medical facilities as shown in Figures 1 and 2. This method includes the use of a dispenser (100) . The dispenser (100) comprises a liquid container (110) and a housing (120). The housing (120) comprises a hand cleaning unit (130) which in turn comprises a proximity detector, a light emitting body, and a spray system. The hand cleaning unit (130) is located at the bottom of the housing (120). The housing (120) further comprises batteries, a fluid system, and a microprocessor. The batteries are configured to provide electrical power for the microprocessor, proximity sensor, fluid system, and luminous body. The presence of one or two hands (200) near the cleaning location is detected using a proximity sensor. When the presence of hands (200) is detected by the proximity sensor, a cleaning location (210) is indicated on the hands (200) using a luminous body that emits a light beam (140) to the hands (200). The microprocessor then gives a signal to the fluid system and the fluid system pressurizes manual cleaning agent from the fluid container to the spray system after obtaining a signal from the microprocessor. The spray system receives cleaning agent from the fluidic system and sprays the cleaning agent as a mist toward the cleaning location on the hands.

In a further specific embodiment, a dispenser (100) comprises the components as shown in Figure 3. The dispenser (100) comprises a liquid container (110), and a housing (120). The fluid container (110) includes a sensor (111) configured to measure the fluid level in the fluid container (110). The sensor (111) is operationally connected to a microprocessor (121). The microprocessor (121) is also operatively connected to a display (125) designed as an LED lamp. The system comprising the sensor (111), the microprocessor (121), and the display (125) is configured so that the display (125) lights up when the liquid level in the liquid container (110) is lower than a preset critical value. The housing (120) also includes a proximity sensor (123) operatively connected to the microprocessor (121) configured to detect the presence of one or more hands (200) in a cleaning location (210). The housing also includes a light emitting unit (126) operatively connected to the microprocessor (121) configured to indicate a cleaning location (210) on the hands (200). The housing (120) also includes batteries (122) configured to provide electrical power for the microprocessor (121), the proximity sensor 123, the fluid system (124), the display (125), and the light emitting body (126) . The housing (120) also includes a fluid system (124) operatively connected to the microprocessor (121) and configured to bring detergent to a spray system when hands (120) pass through the proximity sensor (123) at the cleaning location (210) were detected. The spray system is configured to apply the cleaning agent in the form of a spray to the cleaning location (210).

In a specific embodiment, the present invention comprises a dispenser (100) as shown in Figure 4. The dispenser (100) comprises a liquid container (110) and a housing (120). The housing (120) comprises a hand cleaning unit (130) which in turn comprises a proximity detector, a light emitting body, and a spray system. The hand cleaning unit (130) is located at the bottom of the housing (120). The housing (120) further comprises batteries, a fluid system, and a microprocessor. The batteries are configured to provide electrical power for the microprocessor, proximity sensor, fluid system, and luminous body. The microprocessor is operationally connected to the proximity sensor and to the fluid system. The luminous body is configured to indicate a cleaning location on the hands. In particular, the light emitting body is configured to indicate a cleaning location (210) on the hands (200) by means of a light beam (140). The proximity sensor is configured to detect the presence of one or two hands (200) near the cleaning location (210). The proximity sensor is configured to give a signal to the microprocessor when one or two hands are detected in the cleaning location. The microprocessor gives a signal to the fluid system when it receives a hand detection signal from the proximity sensor. The fluidic system then transports hand cleaning agent from the fluid container (110) to the spray system under pressure. The spray system receives the cleaning agent from the fluid system and sprays a mist comprising the cleaning agent toward the cleaning location (210) on the hands (200). The dispenser (100) was mounted on an upright (300) with a base (310) so that the dispenser can be stably placed at any location in a room. The post (300) has a length of approximately one and a half meters - not to scale in FIG. 4 - so that the dispenser stands out well and is handy to use.

EXAMPLES

By way of example, we refer to Figures 5 to 10.

In Figure 5A the dispenser is shown as in use. Furthermore, this series of images shows gradual opening of the housing by sliding downwards, making the batteries visible. The cleaning fluid is present in the upper fluid container. On the round part below you can see the cleaning unit with two openings that comprise a sensor and spray system. Figure 5B shows how the spray direction is built into a frontal and side view. In Figure 5C a standard dispenser is shown on the left and a dispenser with integrated collection tray is shown on the right. The drain pan can be useful in the event of any cleaning fluid leaks. In Figure 5D the dispenser is shown with a hand held underneath. Figure 5E shows how the LED beam is first aimed at the hand so that the person can hold his hand in the right place and how the spray system then comes into effect and how the hands can then be cleaned.

Figure 6 shows the mounting on the wall of a dispenser with a mounting piece that can be fixed with screws, whereby the housing can be mounted each with their mounting method in side view.

Figure 7 shows on the left a wall model of the dispenser and on the right a upright model of an example of a dispenser according to the invention.

Figures 8 and 9 depict possible liquid containers (also called bottles or refills) provided with a closure as they can be produced separately, filled with cleaning fluid and provided with a closure to then serve as a separate unit to attach to the dispenser. The closure consists of a technical cap with snap connection (first use seal) and a cover. In this way the bottle is provided with a double cap as shown in Figure 9.

Figure 10 describes an embodiment of the dispenser that is provided with a collection system.

Claims (16)

CONCLUSIONS A dispenser (100) for distributing hand cleaning agents into living spaces, office spaces, retail spaces or medical facilities - comprising a fluid container (110); and - comprising a housing (120); characterized in that - the housing (110) comprises batteries (122), a fluid system (124), a proximity sensor (123), a light emitting body (126), a microprocessor (121), and a spray system; - the batteries (122) are configured to provide electrical power for the microprocessor (121), the proximity sensor (123), the fluid system (124), and the light emitting body (126); - the microprocessor (121) is operatively connected to the proximity sensor (123) and to the fluid system (124); - the light emitting body (126) is configured to indicate a cleaning location (210) on the hand (s) (200); - the proximity sensor (123) is configured to detect the presence of one or two hands (200) near the cleaning location (210); - the proximity sensor (123) is configured to give a signal to the microprocessor (121) when one or two hands (200) are detected in the cleaning location (210); - the microprocessor (121) is configured to give a signal to the fluid system (124) after obtaining a hand detection signal from the proximity sensor (123); - the fluid system (124) is configured to pressurize a hand cleaning agent from the liquid container (110) to the spray system after obtaining said signal from the microprocessor; and - the spray system is configured to, upon receiving cleaning agent from the fluid system (124), spray a spray comprising the disinfectant toward the cleaning location (210) on the hand (s) (200). The dispenser (100) according to claim 1, characterized in that - the light emitting body (126) is configured to burn only when the presence of one or two hands (200) is detected by the proximity sensor (123); - the microprocessor (121) is configured to record how long hands (200) were detected at the cleaning site (210); and - the microprocessor (121) is configured to only give a signal to the fluid system (124) when the microprocessor (121) has received a continuous signal from the proximity sensor (123) for 0.5 to 5, preferably 1 to 3, preferably about 1.5 seconds. The dispenser (100) according to any of claims 1 to 2, characterized in that - the fluid container (110) comprises a sensor (111) configured to measure the fluid level in the fluid container (110), and that the housing ( 120) includes a display (125) configured to display the fluid level in the fluid container (110); and - the display is operatively connected via the microprocessor (121) to the liquid level sensor (111) in the liquid container (110). The dispenser (100) according to claim 3, characterized in that - the display (125) is a light emitting body embedded in the housing (120); - the display (125) is configured to light when the liquid level has reached a critical value; and - the display (125) is configured not to light when the liquid level has not reached this critical value. The dispenser (100) according to any of claims 1 to 4, characterized in that the liquid container (110) is removably attached to the housing. The dispenser (100) according to any of claims 1 to 5, characterized in that a receptacle is provided under the spraying system so that the cleaning location (210) is above the receptacle and below the spraying system. The dispenser (100) according to any of claims 1 to 6, characterized in that the dispenser (100) is configured to be mountable on a wall or stand (300). The dispenser (100) according to any of claims 1 to 6, characterized in that the dispenser (100) is provided with a stand (300) to which one or more dispensers (100) can be connected. A method for distributing hand cleaning agents into living spaces, office spaces, retail spaces and / or medical facilities - wherein a dispenser (100) is used - comprising a liquid container (110); and - comprising a housing (120); characterized in that - the housing (120) of the dispenser comprises batteries (122), a fluid system (124), a proximity sensor (123), a light emitting body (126), a microprocessor (121), and a spray system; - the batteries (122) of the dispenser (100) provide electrical power for the microprocessor (121), the proximity sensor (123), the fluid system (124), and the light emitting body (126); - the presence of a cleaning location (210) is indicated on the hand (s) (200) by means of a luminous body (126); - the presence of one or two hands (200) in the cleaning location (210) is detected by means of a proximity sensor (123); - the proximity sensor (123) gives a signal to the microprocessor (121) when one or two hands (200) are detected near the cleaning location (210); - the microprocessor (121) gives a signal to the fluid system after obtaining a hand detection signal from the proximity sensor (123); - the fluid system (124) conveys a hand cleaning means from the liquid container (110) to the spray system under pressure after obtaining a signal from the microprocessor (121); and - the spray system receives cleaning means from the fluid system (124) and sprays it as a mist toward the cleaning location (210) on the hand (s) (200). The method according to claim 9, characterized in that - the light emitting body (126) lights up only when the presence of one or two hands (200) is detected by the proximity sensor (123); - the microprocessor (121) records how long the hands (200) have been detected at the cleaning site (210); and - the microprocessor (121) only gives a signal to the fluid system (124) when the microprocessor (121) has received a continuous signal from the proximity sensor (123) for 0.5 to 5, preferably 1 to 3, most preferably about 1.5 seconds . The method according to any of claims 9 to 10, characterized in that - a sensor (111) in the liquid container (110) measures the liquid level in the liquid container (110); - the sensor (111) transmits the measured liquid level to the microprocessor (121); - the microprocessor (121) forwards a signal to a display (125) in the housing based on the measured liquid level; and - the display (125) in the housing shows the liquid level in the liquid container (110). The method of claim 11 wherein the display (125) is embodied as a light emitting body characterized in that - the display (125) lights up when the liquid level has reached a critical value; and - the display (125) does not light when the liquid level has not reached this critical value. The method according to any of claims 9 to 12, characterized in that the liquid container (110) is removably attached to the housing (120). The method according to any of claims 9 to 13, characterized in that a collecting tray collects any spilled cleaning agent below the cleaning location. The method according to any of claims 9 to 14, characterized in that the dispenser (100) is mounted on a wall. The method according to any of claims 9 to 14, characterized in that the dispenser (100) is provided with a post (300) to which one or more dispensers (100) can be connected.