DE102014013817B4 - Method for a blower filter system and blower filter system - Google Patents

Abstract

The invention relates to a method for a blower filter system (2) having at least two components from the group comprising a blower filter device (4), a blower (6), a battery holder (8), a filter holder (10), a carrying system holder and a device hose connection ( 12), a battery (14) releasably connectable to the battery receptacle (8), a filter (16) releasably connectable to the filter receptacle (10), a support system (18) detachably connectable to the support system receptacle a breathing mask (20) having a mask tube connection (22) and a tube (24) which is detachably connectable to the device tube connection (12) at one end and / or to the mask tube connection (24) at another end, wherein at least one first component of the components is associated with a sensor (34), with which a transition region between the first component and a second component of the components connectable therewith can be monitored is, comprising the steps of: detecting a measured variable of the sensor (34), detecting a predetermined connection between the first component and the second component by means of the detected measured variable, and locking the connection between the first component and the second component when the connection is detected , Further, the invention comprises a blower filter system (2) suitable to be used in the aforementioned method using at least two of the listed components.

Description

The invention relates to a method for a blower filter system having at least two components from the group comprising a blower filter device which has a blower, a battery holder, a filter holder, a carrying system holder and a device hose connection, a battery which is detachably connectable to the battery holder, a filter, which is releasably connectable to the filter holder, a carrying system which is detachably connectable to the carrying system recording, a breathing mask, which has a mask hose connection, and a hose, the one with the device hose connection and / or with another end releasably connectable to the mask hose connection is. In this case, at least one first component of the aforementioned components is assigned a sensor with which a transition region between the first component and a second component of the aforementioned components which can be connected thereto can be monitored.

Blower filter systems are basically known from the prior art. Blower filter systems are commonly used for light to medium respiratory protection. They support the user of respiratory masks, which are also referred to as respiratory masks, by reducing a breathing resistance in contrast to conventional respiratory masks. This allows a long fatigue-free application of the breathing mask. One of the essential components of a blower filter system is the blower filter device. This has a blower, which, for example, a motor, a fan-driven by the motor and associated housing, in particular a spiral housing has. From the blower, a volume flow of air can be generated. The energy required for the blower or the volume flow of air can be provided by an electric battery. This can be detachably connected to a battery receptacle of the blower filter device. The battery and the battery receptacle may have mutually corresponding connecting elements with which the aforementioned connection can be produced. This may be a snap or catch connection. Other types of connections, which are also solvable, are also possible. To ensure that the volumetric flow of air provided by the fan does not harm the user, the fan filtration system may include a filter as a component. Thus, the sucked by the fan air through the filter, which is releasably connected to the filter holder, are sucked in order to achieve a corresponding protective effect. Analogously to the previously described connection, the filter and the filter receiver can have corresponding connection elements in order to produce the detachable connection. This may be a snap or ratchet connection. Filters are also known in the art and may be configured differently. The filters differ in particular with regard to the substances to be filtered. Basically, filters are to be distinguished in gas filters and particle filters as well as combination filters, which can filter out gases and particles.

In order to ensure that the volume flow of filtered air for breathing is made available to the respective user to be protected, the blower filter system has a breathing mask. A respiratory mask should be understood as a respiratory mask as such and / or respiratory connection. As such, the respiratory mask can be designed, for example, as a sub-mask, in particular a half-mask, or as a full-face mask. The respiratory connection is a unit that can connect the respiratory tract at least indirectly to the hose. The breathing connection can be designed, for example, as a respiratory protection hood or as a respiratory protection visor. If, in the following, a respiratory mask is spoken of, it is intended to mean both the respiratory mask as such and / or the respiratory connection. The respirator can be placed on or on the user's head. The volume flow of filtered air is conveyed from the blower filter device through a hose associated with the blower filter system to the breathing mask. The tube may extend from the blower filter device to the breathing mask. The blower filter device has for this purpose a device hose connection to which one end of the hose is detachably connectable. This is preferably a quick connection. Hose connections and correspondingly formed ends of hoses are known from the prior art. The other end of the hose is detachably connectable to a mask hose connection of the breathing mask. The mask hose connection can be configured analogously to the device hose connection. If, for example, the breathing mask, the hose and / or the blower filter device are replaced and / or maintained, the other components can initially be used further.

For the fan filter system also preferably a carrying system is provided, which is detachably connectable to a carrying system receiving the fan filter device. Thus, the blower filter system can be designed to be portable overall. The user who wants to move with such a blower filter system mobile, thus can wear the blower filter device by means of the support system, for example, designed as a girdle on the body. The breathing mask is attachable to the user's head or can be placed upside down so that the breathing mask is portable by the user's head. The hose extends from the Blower filter device to the breathing mask, so that the tube may be at least partially supported by the blower filter device and the breathing mask.

For the fan filter device, a central control unit can also be provided which controls the motor of the fan and / or can process inputs of the user. The blower filter device may also have a base housing, which includes the blower, the battery holder and / or the filter holder.

The releasable connections between the components of the fan filter system are usually designed as quick connections that can be easily formed or redissolved. Thus, the hose, the filter and / or the battery can be mounted and dismounted easily and with little effort on the blower filter device. The disassembly is used, for example, for cleaning or replacement of at least one of the components, which is releasably connectable to the blower filter device. The same applies to the remainder for the detachable connection between the hose and the breathing mask.

For the user, the safe function of the blower filter system is of particular importance. For example, if contaminated air is sucked through the filter by means of the blower filter device, the harmful substances in the sucked air should be filtered out, and then exempted from the harmful substances air are then passed through the hose to the breathing mask to make this available to the user put. During operation of the blower filter system, it is therefore important that the components of the blower filter system do not accidentally come loose and thus jeopardize the function of the blower filter system.

task

The invention is therefore based on the object to provide a method for a fan filter system, with which the intended operation of the fan filter system can be safely ensured.

In addition, a corresponding fan filter system is to provide, with a corresponding method is executable.

The object is achieved according to a first aspect of the invention by a method having the features of claim 1.

Therefore, the invention provides a method for a fan filter system with at least two components from the group comprising a blower filter device comprising a blower, a battery holder, a filter holder, a Tragesystemaufnahme and a device hose connector, a battery that is detachably connectable to the battery holder, a filter a detachably connectable to the filter holder, a respiratory system detachably connectable to the carrying system receptacle, a respiratory mask having a mask tube connector, and a tube releasably connectable to one end on the device tube connector and / or another end on the mask tube connector in which at least one first component of the components is assigned a sensor with which a transition region between the first component and a second component of the components that can be connected thereto can be monitored, comprising the steps of: detecting a measured variable of the sensor, detecting NEN of a predetermined connection between the first component and the second component by means of the detected measured variable, and locking the connection between the first component and the second component when the connection is detected.

The method according to the invention prevents components from being accidentally released or components from being accidentally removed. For this purpose, the transition region between the first component and the second component is monitored by means of the sensor according to the invention. For example, the sensor can be assigned to the battery holder. The battery can be detachably connected with the battery holder. The sensor is therefore used to monitor the transition area from the battery holder to the battery. For example, if the battery is inserted into the battery receptacle, the sensor may be configured to detect the distance between the battery and the battery receptacle, or other physical parameters that allow the battery to be properly seated and / or properly positioned / or in the battery holder. In other words, a measured variable representing the transitional area between the first and second components, for example a measured variable representing the distance between the battery receptacle and the battery, is detected with the sensor.

By means of the detected measured variable, that is, for example, the distance between the battery holder and the battery, the property of the connection can be deduced. For example, it can be determined on the basis of the abovementioned distance whether the rechargeable battery is correctly inserted in the rechargeable battery receptacle. If the distance falls below a certain value, there is a predetermined connection between the battery holder and the battery. Therefore, the inventive method provides for detecting a predetermined connection between the first component and the second component by means of the detected measured variable.

Finally, the connection between the first and second components is locked when predetermined connection is detected. Locking effectively prevents the first component from accidentally or accidentally becoming detached from the second component. Based on the previously explained example prevents the battery accidentally or accidentally detached from the battery holder. Safe operation of the blower filter system is therefore ensured. Because the battery provides unhindered the necessary energy to operate the fan. Analogous to the connection between the battery holder and the battery, and an associated locking of the connection, the other connections between two components from the group described above can be monitored by the inventive method and the connection formed between the two components can be locked to secure To ensure operation of the blower filter system.

The detection of a predetermined connection between two components by means of the detected measured variable can be done for example by evaluating the measured variable. For example, the measured variable can be compared with an associated threshold value. If the measured value exceeds the threshold value, this is characteristic for the presence of the predetermined connection. If the measured value falls below the threshold value, then the predetermined connection is not present. This exemplary recognition of the connection by means of the detected measured variable as well as another embodiment for the detection of the connection on the basis of the measured variable should be encompassed by the method according to the invention.

If the predetermined connection is detected, the connection is locked. The locking as such can be done mechanically, for example. Thus, for example, a mechanical latch can be moved mechanically by means of a corresponding actuator, which mechanically connects the first component to the second component such that the connection can not be released unconsciously or unintentionally. The locking can be done alternatively or additionally electromechanical or electromagnetic. For example, by means of an electromagnet, a force can be caused between the first component and the second component, which renders a connection between the first component and the second component at least substantially insoluble for the user. An unintentional release of the connection between the first component and the second component is thus effectively prevented.

A preferred embodiment of the method is characterized by activating a filtering operation of the blower filter device for filtering air when the connection between the first component and the second component is locked and an activation signal is generated by an input unit of the blower filter system. An activated filtering operation of the blower filter device is characterized in that the blower can be switched on or off. With the activation of the filtering operation so the generation of a volume flow of air by means of the blower is made possible. If the filtering operation of the blower filter unit is deactivated, the blower can not be switched on. Rather, the fan remains off. In order to prevent the filtering process from being activated when a predetermined connection, for example between the filter holder and the filter, has not yet been detected and / or has not yet been locked, it is provided that the locking of the connection is first carried out before the activation is converted according to an activation signal from the input unit. For example, if the activation signal is in a case where the connection between the first component and the second component is not yet locked, according to the preferred embodiment, this does not result in the activation of the filtration operation. Rather, the filtering mode remains disabled.

A further preferred embodiment of the method is characterized by unlocking the connection between the first component and the second component when an unlocking signal is generated by the input unit. It has been explained in the previous sections that unintentional disconnection between the first component and the second component should be prevented in order to prevent the associated dangers for the fan filter system. For example, to replace or clean the battery, the filter and / or the hose, it may be useful, for example, at the end of use of the fan filter system to dissolve the connection between the first component and the second component. For this purpose, the user can generate an unlocking signal by means of the input unit of the blower filter device. The input unit may be, for example, a button, a touch screen or the like. The unlock signal may be evaluated by a control unit of the blower filter device, and cause the unlocking of the connection between the first component and the second component. If the lock is a mechanical lock, a corresponding actuator can be actuated to move the associated mechanical latch so that the connection between the first and second components is unlocked. Corresponding actuators of an electromagnetic or an electromechanical implementation of the lock be driven in accordance to cancel the locking of the connection between the first component and the second component. By the user deliberately generates an unlocking signal by means of the input unit, the connection is also only deliberately unlocked. Accidental unlocking of the connection is thus effectively prevented. This increases the safety of the application of the blower filter system.

A further preferred embodiment of the method is characterized by deactivating the filtering operation when the connection between the first component and the second component is unlocked. With the activation of the filtering operation, the generation of a volume flow of air by means of the blower is made possible. The blower can therefore only be switched on when the filtering mode is activated. With the unlocking of the connection between the first component and the second component, the filtering mode is deactivated. Deactivating the filtering mode prevents the blower from being switched on. If the fan is still switched on, this is also preferably switched off when the filtering mode is deactivated. With the unlocking of the connection between the first component and the second component so both the filtering mode can be disabled, and the fan can be turned off. With the unlocking of the connection, the generation of a volume flow of air from the blower filter device to the breathing mask is stopped. This is particularly useful if the connection between the filter holder and the filter is considered. If the filter is loosened during operation, there is a risk that ambient air will be conveyed unfiltered to the breathing mask. By the filter operation and / or the fan with the unlocking of the connection, so for example between the filter holder and the filter, disabled or off, effectively prevents the user from accidentally unfiltered ambient air is supplied. This increases the safety of the blower filter system in its application.

A further advantageous embodiment of the method is characterized by a deactivation of the filtering operation when a deactivation signal or unlocking signal is generated by the input unit. The deactivation signal thus serves to deactivate the filtering operation. This can be triggered by the input unit, for example by pressing a button and / or by pressing an associated touch screen. The filtering mode can also be deactivated by the unlocking signal. As explained above, it makes sense to deactivate the filtering mode by unlocking the connection between the first component and the second component.

A further advantageous embodiment of the method is characterized in that activation of the filtering operation is blocked when the connection between the first component and the second component is unlocked. For example, if this is the connection between the filter holder and the filter, there is a risk that the filter will unintentionally release itself from the filter holder in the event of an unlocked connection, whereupon ambient air could be conveyed unfiltered to the breathing mask. It has previously been explained that with the unlocking of the connection between the first component and the second component, the filtering mode is deactivated. However, in order also to prevent the filtering mode, in particular again, being activatable in the case of an unlocked connection between the first component and the second component, activation of the filtering mode should be blocked if the named connection is unlocked. Thus, the user can not inadvertently activate the filtering mode if the said connection is not yet locked. Thus, it is particularly easy to ensure that the filtering mode is activated only when the connection is locked. This increases the safety of the application of the blower filter system.

A further advantageous embodiment of the method is characterized in that a release of the connection between the first component and the second component is blocked when the filtering mode is activated. In filtering mode, the fan may be on. In an active filtering operation, therefore, a volume flow of air can be generated by means of the blower. In order to prevent the connection between the first component and the second component, for example between the filter holder and the filter, being unlocked while the filtering mode is activated and possibly generating a volume flow of air by means of the blower, the unlocking is prevented or prevented blocked. The activated filtering mode thus has priority over unlocking the connection between the two components. Only when the filtering mode is deactivated can the unlocking be carried out between the two components. The unlocking is not critical in a deactivated filtering operation, since the user is no volume flow of air to be directed by means of the blower. Thus, there is no risk that the user by means of the fan filter system accidentally actively supplied air from the environment. In other words, thanks to this configuration, the user can be sure that, if the filtering mode is activated, the predetermined connection between the first component and the second component is detected, this connection is locked and unlocking the connection is blocked, as long as the user Blower filter system for the supply of filtered air ie when the user has activated the filtering mode and uses the blower to generate a volume flow of air which is directed to the breathing mask. With this configuration, which blocks unlocking of the connection when the filtering mode is activated, the user obtains a blower filtering system with further increased safety.

A further advantageous embodiment of the method is characterized in that the locking and / or the unlocking of the connection between the first component and the second component takes place mechanically and / or electromechanically. In practice, it has proved to be advantageous if the connection between the first component and the second component is at least partially mechanically locked. For locking and / or unlocking the connection then energy is needed to control a corresponding actuator. If the locking or the unlocking is done, it requires no further energy for the actuator. Such a fan filter system is therefore characterized by its high safety standard and low energy consumption to achieve the above safety standards.

A further advantageous embodiment of the method is characterized in that a blocking of the unlocking of the connection between the first component and the second component takes place mechanically and / or electromechanically. Here, the analog features and / or advantages apply as they have been explained to the previous embodiment. It is therefore related to it in an analogous manner.

According to a second aspect, the object mentioned is achieved by a fan filter system having the features of claim 10. Provided for this purpose is a fan filter system with at least two components from the group comprising a blower filter device comprising a fan, a battery holder, a filter holder, a Tragesystemaufnahme and a Device hose connection, a battery that is detachably connectable to the battery receptacle, a filter that is releasably connectable to the filter holder, a support system that is releasably connectable to the carrying system recording, a breathing mask having a mask hose connection, and a hose with one end can be releasably connected to the device hose connection and / or to another end on the mask hose connection, wherein at least one first component of the components is assigned a sensor with which a transition region between the first component and a second component connectable therewith component of the components can be monitored, wherein a locking unit is provided, with a predeterminable connection between the first component and the second components can be locked and / or unlocked.

In this case, features, details and advantages that have been described in connection with the inventive method, also in connection with the fan filter system according to the invention and in each case vice versa, so that in relation to the disclosure of the individual aspects of the invention each interrelated reference is or may be.

The locking unit is configured to lock or unlock the connection between the first component and the second component. If, therefore, a predetermined connection between the first component and the second component is detected by evaluating the measured variable of the sensor, the connection between the first component and the second component is interlocked. For evaluating the measured variable of the sensor, the fan filter system can have an evaluation unit. This is designed, for example, to evaluate a distance, in particular by means of a threshold value.

A further advantageous embodiment of the fan filter system is characterized in that the locking unit is a mechanical locking unit, an electrical locking unit and / or an electromagnetic locking unit. Locking units may thus comprise mechanical components, such as bolts or locking pin, which are each movable by means of an actuator, for example by means of an electric linear motor. The bolt can therefore lead to locking the connection between the first component and the second component in such a way by both components that they are not accidentally separated from each other. The Verrieglungseinheit can also be designed as electromagnetic locking unit. In this case, a magnetic field and an associated force are caused by the locking unit, which prevents a separation of the first component from the second component. This will be the connection between the first component and the second component locked. Due to its electromagnetic configuration, the locking unit can lock or unlock the connection particularly easily, in particular by switching on or off a current through an electromagnetic coil.

A further advantageous embodiment of the fan filter system is characterized in that a blocking unit is provided, which is designed to block a locked connection between the first component and the second component. The blocking unit is used to block depending on certain conditions and / or signals unlocking the connection to ensure increased safety of the fan filter system. With regard to blocking, reference is made to corresponding explanations in the previous sections.

A further advantageous embodiment of the fan filter system is characterized in that an input unit is provided. The input unit is preferably associated with the blower filter device. However, the input unit can also form another component of the fan filter system or a separate component of the fan filter system. In this case, a telemetric communication link may be provided between the input unit and the rest of the blower filter system. The input unit may be designed to generate an activation signal for activating the filtering operation. Thus, it is possible for the user to activate the filtering operation of the blower filter system, for example by pressing a button. An input unit can be designed, for example, in the form of at least one key or an input field, for example in the form of a touch screen. Additionally or alternatively, the input unit may be designed to generate a deactivation signal for deactivating a filtering operation. The filtering mode can thus be activated and deactivated again by means of the input unit. Furthermore, the input unit may be designed to generate an unlocking signal for unlocking a locked connection between the first component and the second component. For example, if the user wishes to disconnect the connection between the first and second components, first disable the filtering mode and then unlock the lock. Both signals can advantageously be generated by means of the input unit. With the input unit, the user thus receives a central operating unit to control various functions of the fan filter system. Furthermore, the input unit may be designed to generate a blocking signal for blocking a locked connection between the first component and the second component. The user can thus turn on another security instance with the blockage of the lock. This further enhances the safety of the blower filter system. In order to remove the blockage, the input unit may be configured to generate a release signal for enabling a blocked lock between the first component and the second component.

characters

The invention will be described below without limiting the general inventive idea by means of embodiments with reference to the drawings. In the drawings show:

1 a schematic, perspective view of the fan filter system, which is supported by a user,

2 a section of a schematic cross-sectional view of the fan filter system with an unlocked connection between the first component and the second component, and

3 the schematic cross-sectional view of a section of the fan filter system 2 but with a locked connection between the first component and the second component.

From the 1 is a blower filter system ( 2 ), which is carried by a person. The fan filter system ( 2 ) comprises a plurality of components. The components are, for example, a blower filter device ( 4 ), a rechargeable battery ( 14 ), a filter ( 16 ), a carrying system ( 18 ), a breathing mask ( 20 ) and / or a hose ( 24 ). By means of the blower filter device ( 4 ), a volume flow of air is generated. From the synopsis with the 2 It can be seen that the blower filter device ( 4 ) to a blower ( 6 ) having. The blower ( 6 ) usually includes a motor, a fan driven by the motor ( 38 ) and an associated housing ( 40 ), in particular spiral housing. From the blower ( 6 ), the volume flow of air is generated. With the motor of the blower ( 6 ) is usually an electric motor. The energy required to generate the volumetric flow of air is supplied by an electric battery ( 14 ) provided. Due to the finite storage capacity of the battery's electrical energy ( 14 ), the battery ( 14 ) interchangeable. The blower filter device ( 4 ) has a battery holder ( 8th ) into which the battery ( 14 ) can be used. In particular, it is in the Akkuaufnahme ( 8th ) around a plug-in receptacle into which the battery ( 14 ) can be inserted. By inserting or inserting the battery ( 14 ) in the battery holder ( 8th ) forms between the battery holder ( 8th ) and the battery ( 14 ) a mechanical connection that disconnects the battery ( 14 ) prevents it from falling out.

To generate a volume flow of air, the blower ( 6 ) Sucked in ambient air. To clean this air to the breathing mask ( 20 ) is for the fan filter system ( 2 ) a filter ( 16 ) intended. This filter ( 16 ) can be placed in a filter holder ( 10 ) of the blower filter device ( 4 ) are inserted or plugged in. By inserting or inserting the filter ( 16 ) in the filter holder ( 10 ) forms between the filter holder ( 10 ) and the filter ( 16 ) a mechanical connection, the falling out of the filter ( 16 ) prevented. By the blower ( 6 ) sucked in ambient air, this first passes the filter ( 16 ) and then reaches the blower ( 6 ). The blower ( 6 ) conveys the now cleaned air to a device hose connection ( 12 ) into which a first end ( 26 ) of a hose ( 24 ) is inserted or inserted. The air is thus through the hose ( 24 ), thus arriving at a second end ( 28 ) of the hose ( 24 ), wherein the second tube end ( 28 ) into a mask tube connection ( 22 ) of the breathing mask ( 20 ) is inserted. With the insertion or insertion of the second hose end ( 28 ) into the mask tube connector ( 22 ) forms between the mask tube connection ( 22 ) and the second tube end ( 28 ) a mechanical connection, the falling out of the hose ( 24 ) prevented. The blower ( 6 ) transported through the hose air therefore enters the breathing mask ( 20 ), and is therefore made available to the user.

In the previous section, a plurality of mechanical connections have been mentioned, which are located between in each case two components of the blower filter system ( 2 ) are formed by two components are assembled or put together. For example, a battery ( 14 ) as a first component in a battery receptacle ( 8th ) inserted or inserted as a second component. The further explanations, referring to the battery ( 14 ) and the battery holder ( 8th ), are to be understood analogously for each further pair of a first component and a second component, which can also be assembled or put together and together form a mechanical connection.

To ensure the correct fit of the battery ( 14 ) in the battery holder ( 8th ) is a sensor ( 34 ) intended. The sensor ( 34 ) is, for example, a distance sensor. Will the battery ( 14 ) now in the Akkuaufnahme ( 8th ), the distance between the device-side wall of the battery holder ( 8th ) and one of the battery holder ( 8th ) facing the wall of the battery ( 14 ). Between the two aforementioned walls, so a transition region of the battery is formed ( 14 ) to the battery holder ( 8th ) out. This can be determined by means of the distance sensor ( 34 ), for example by continuously measuring the distance when the battery ( 14 ) in the battery holder ( 8th ) is used. Reaches the measured distance between the battery ( 14 ) and the battery holder ( 8th ) a certain distance, for example 1 mm, it can be concluded that the connection between the battery ( 14 ) and the battery holder ( 8th ) has reached a predetermined connection. Because if the battery ( 14 ) in such a way in the Akkuaufnahme ( 8th ) is used, for example, mechanical locking elements, for example, the battery ( 14 ) or the battery holder ( 8th ), a mechanical connection between the battery ( 14 ) and the battery holder ( 8th ) produce. The distance sensor ( 34 ) is therefore used to measure, here the distance between the battery ( 14 ) and the battery holder ( 8th ), capture. This is followed by an evaluation of the measured variable, ie the distance mentioned, in order to detect whether a predetermined, in particular mechanical, connection between the battery receptacle ( 8th ) and the battery ( 14 ) is made. For example, if the distance falls below a predetermined threshold value, a connection between the components is detected as established.

Like from the 1 can be seen, is the blower filter device ( 4 ) mostly on a carrying system ( 18 ) detachably fastened, whereby the carrying system ( 18 ) in the manner of a belt on the body of the user can be applied. The blower filter device ( 4 ) is usually worn on the back of the user. The user therefore has difficulty in understanding whether the blower filter device ( 4 ) is in a correct state, in which all the components are still fitted on the blower filter device as intended ( 4 ) are attached. To prevent a component, such as the battery ( 14 ), a filter ( 16 ) or a hose ( 24 ) accidentally fall off the blower filter device ( 4 ), it is provided that when a connection between a first component, so for example the blower filter device ( 4 ), and a second component, such as the battery ( 14 ), the filter ( 16 ) or the hose ( 24 ), it has been detected that the corresponding connection is being locked.

The locking is intended as an example of the detachable connection between the battery ( 14 ) and the battery holder ( 8th ). Of course, analogous features, advantages and effects also apply to detachable connections between the filter ( 16 ) and the filter holder ( 10 ), the detachable connection between the hose ( 24 ) or the first end of the tube ( 26 ) and the device hose connection ( 12 ) and a detachable connection between the mask tube connection ( 22 ) of the mask ( 20 ) and the hose ( 24 ) or the second hose end ( 28 ).

Previously it was explained that with the insertion of the battery ( 14 ) in the battery holder ( 8th ) of the blower filter device ( 4 ) forms a releasable mechanical connection between the two aforementioned components. To increase the security of this connection or to prevent accidental disconnection, the connection between the battery ( 14 ) and the battery holder ( 8th ) by means of a locking unit ( 42 ). This has a mechanical latch ( 44 ) on. The locking unit ( 42 ) is on the battery holder ( 8th ) arranged. For locking the bolt ( 44 ) from the battery holder ( 8th ) into the battery ( 14 ), so that the bolt ( 44 ) from the battery holder ( 8th ) into the battery ( 14 ). An appropriate locking of the connection between the battery ( 14 ) and the battery holder ( 8th ) is from the 3 to recognize. Instead of locking the connection with a bolt ( 44 ) between the battery ( 14 ) and the battery holder ( 8th ), other embodiments of the locking unit ( 42 ) be provided. Thus, the locking can also be done by means of an electromagnetic interaction. For this purpose, the locking unit ( 42 ) an electric coil and the battery ( 14 ) provide a ferromagnetic base plate, wherein the locking unit ( 42 ) and the base plate are arranged opposite each other when the battery ( 14 ) in the battery holder ( 8th ) is used. By energizing the electric coil is then effectively prevents the battery ( 14 ) from the battery holder ( 8th ) is removable.

Like from the 2 and 3 As can be seen, there are a plurality of connections between two components of the blower filter system ( 2 ). If, in the following, the connection between a first component and a second component, for example between the battery ( 14 ) and the battery holder ( 8th ), this shall also apply analogously to the remaining connections between two components of the blower filter system ( 2 ) be valid. This is especially true when it is spoken of a lock between two components. Thus, this can be understood as a locking of several or all connections between in each case two components of the blower filter system ( 2 ).

Before using the blower ( 6 ) A volume flow of air can be generated, it requires an activation of an air filtering operation. In other words, only with the activation of an air filtering operation of the blower filter device ( 4 ) the associated blower ( 6 ) are turned on. Activation of the filtering operation of the blower filter device ( 4 ) assumes, however, that each connection between a first component and the second component is locked and that an activation signal from an input unit ( 46 ) of the fan filter system ( 2 ) is generated. The locking of the respective connection between two components can only take place when the two components each have a correct fit to each other. Thus, with the locking of the at least one connection, preferably the plurality of connections, it is ensured that the components each have the correct seat to each other. This ensures that ambient air is filtered, and thus only filtered air to the breathing mask ( 20 ). So that the user the blower filter device ( 4 ) with the blower ( 6 ) can put into a state which is a switching on of the blower ( 6 ), is by means of the input unit ( 46 ) an activation signal can be generated. The user can install the blower filter device ( 4 ) or the blower filter system ( 2 ) consciously put into a state in which an active filtering of air and conveying air to the breathing mask ( 20 ) he follows. The input unit ( 46 ) can be used to generate the activation signal as a touch screen and / or with buttons ( 48 ) be formed. Alternative embodiments of the input unit ( 46 ) are known from the prior art and also conceivable.

LIST OF REFERENCE NUMBERS

2

Powered Air Purifying System

4

PAPR

6

fan

8th

battery mount

10

filter mount

12

Device connecting hose

14

battery pack

16

filter

18

carrying system

20

oxygen mask

22

Mask hose connection

24

tube

26

first hose end

28

second hose end

30

first component

32

second component

34

sensor

36

Transition area

38

fan

40

casing

42

locking unit

44

bars

46

input unit

48

button

Claims (13)

Method for a blower filter system ( 2 ) having at least two components from the group comprising a blower filter device ( 4 ), which is a blower ( 6 ), a battery holder ( 8th ), a filter holder ( 10 ), a carrying system receptacle and a device hose connection ( 12 ), a battery ( 14 ), which comes with the battery holder ( 8th ) is releasably connectable, a filter ( 16 ), with the filter holder ( 10 ) is releasably connectable, a carrying system ( 18 ), which is releasably connectable to the carrying system recording, a breathing mask ( 20 ), the one Mask tube connection ( 22 ), and a hose ( 24 ), which has one end with the device hose connection ( 12 ) and / or with another end to the mask tube connector ( 22 ) is releasably connectable, wherein at least a first component of the components a sensor ( 34 ), with which a transition region between the first component and a second component of the components which can be connected thereto can be monitored, comprising the steps of: detecting a measured variable of the sensor ( 34 ), Detecting a predetermined connection between the first component and the second component by means of the detected measurand, and locking the connection between the first component and the second component when the connection is detected. Method according to the preceding claim, characterized by activating a filtering operation of the blower filter device ( 4 ) for filtering air when the connection between the first component and the second component is locked and an activation signal from an input unit ( 46 ) of the fan filter system ( 2 ) is generated. Method according to one of the preceding claims, characterized by unlocking the connection between the first component and the second component when an unlocking signal from the input unit ( 46 ) is generated. Method according to the preceding claim, characterized by deactivating the filtering operation when the connection between the first component and the second component is unlocked. Method according to one of the preceding claims, characterized by deactivating a filtering operation when a deactivation signal or an unlocking signal from the input unit ( 46 ) is generated. A method according to the preceding claim, characterized in that activation of the filtering operation is blocked when the connection between the first component and the second component is unlocked. Method according to one of the preceding claims, characterized in that a unlocking of the connection between the first component and the second component is blocked when the filtering mode is activated. Method according to one of the preceding claims, characterized in that the locking and / or the unlocking of the connection between the first component and the second component takes place mechanically and / or electromechanically. Method according to one of the preceding claims, characterized in that a blocking of the unlocking of the connection between the first component and the second component takes place mechanically and / or electromechanically. Blower filter system ( 2 ) having at least two components from the group comprising a blower filter device ( 4 ), which is a blower ( 6 ), a battery holder ( 8th ), a filter holder ( 10 ), a carrying system receptacle and a device hose connection ( 12 ), a battery ( 14 ), which comes with the battery holder ( 8th ) is releasably connectable, a filter ( 16 ), with the filter holder ( 10 ) is releasably connectable, a carrying system ( 18 ), which is releasably connectable to the carrying system recording, a breathing mask ( 20 ) which has a mask tube connection ( 22 ), and a hose ( 24 ), which has one end with the device hose connection ( 12 ) and / or with another end to the mask tube connector ( 22 ) is releasably connectable, wherein at least a first component of the components a sensor ( 34 ), with which a transition region between the first component and a second component of the components connectable thereto can be monitored, characterized in that a locking unit is provided, with which a predeterminable connection between the first component and the second components can be locked and / or is unlocked when the predetermined connection has been detected. Blower filter system ( 2 ) according to the preceding claim, characterized in that the locking unit is a mechanical locking unit, an electrical locking unit and / or an electromagnetic locking unit. Blower filter system ( 2 ) according to one of the preceding claims 10-11, characterized in that a blocking unit is provided, which is designed to block a locked connection between the first component and the second component. Blower filter system ( 2 ) according to one of the preceding claims 10-12, characterized in that an input unit ( 46 ) for generating an activation signal for activating a filtering operation, a deactivation signal for deactivating a filtering operation, an unlocking signal for unlocking a locked connection between the first component and the second component, a blocking signal for blocking a locked connection between the first component and the second Component, and / or a release signal for releasing a blocked lock between the first component and the second component is configured.

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