DE202014002712U1 - Pneumatic control valve for sanitary equipment - Google Patents

Abstract

A control valve device for a control of a sanitary device, comprising - a valve housing having - a vacuum chamber communicating with a first vacuum line connection for connecting a vacuum line, - an intermediate chamber communicating with a second vacuum line connection for connecting a second vacuum line, and - a Ambient pressure chamber communicating by means of a vent with the environment - a valve lifter movable relative to the housing, having a manually operable actuator at a first end, - a first seal cooperating with the housing and the valve lifter, - in a first position the valve stem to the housing seals the vacuum chamber with respect to the intermediate chamber and - in a second position of the valve stem to the housing releases a connection between the vacuum chamber and the intermediate chamber, - a second, with the housing and the valve stem cooperating seal which - in a first position of the valve stem to the housing communication between the intermediate chamber and the ambient pressure chamber releases and - seals in the second position of the valve stem to the housing, the intermediate chamber relative to the ambient pressure chamber, characterized by one with the valve stem coupled compressed air valve unit having a valve body which - in the first position of the valve stem to the housing blocks a compressed air inlet against a compressed air outlet, and - in the second position of the valve stem to the housing releases a connection between the compressed air inlet to the compressed air outlet.

Description

The invention relates to a control valve device for a control of a sanitary device, comprising a valve housing with a vacuum chamber which communicates with a first vacuum line connection for connection of a vacuum line, an intermediate chamber which communicates with a second vacuum line connection for connection to a second vacuum line, and a Umweltdruckkamer which communicates with the environment by means of a vent opening a relatively movable to the housing valve stem having a manually operable actuator at a first end, a first, cooperating with the housing and the valve stem seal in a first position of the valve stem to Housing seals the vacuum chamber relative to the intermediate chamber and in a second position of the valve stem to the housing releases a connection between the vacuum chamber and the intermediate chamber, a second, with the Geh use and the valve tappet cooperating seal to the housing releases in a first position of the valve stem, a connection between the intermediate chamber and the ambient pressure chamber and the housing the intermediate chamber seal in the second position of the valve stem relative to the ambient pressure chamber.

Out DE 20 2013 004 015 is a pneumatic control for a vacuum toilet known. In this pneumatic control, a vacuum is passed to a time delay unit by means of an actuating knob and a time delay by means of the vacuum triggered a flushing operation by means of compressed air by a diaphragm actuated valve unit opens a compressed air supply.

Valve control devices of this type are used to control sanitary facilities that require vacuum-activated fresh water, Spülwasser- or sewage pumping. In such sanitary facilities often water is conveyed out by means of compressed air from a container or pulled into a container by means of a vacuum. In certain applications, such as a vacuum toilet, a timed combination, in which first a flushing water is conveyed out by means of compressed air from a rinse tank, then a waste water amount, which may include this amount of flushing water, transported by means of a vacuum in a wastewater tank or an upstream intermediate container, wherein in the case of an upstream intermediate container often still follows a transport of the wastewater from the intermediate container into the waste water tank, which in turn can be effected for example by means of compressed air.

In other applications, fresh water must be transported out of a fresh water tank by means of compressed air to supply, for example, a hand basin with water and the wastewater are removed from the hand basin by means of a vacuum again.

In general, such control processes can be controlled by a vacuum source and compressed air source are provided and from this vacuum source and this compressed air source by controlling electrically operated valve units with a corresponding electronic control unit at certain intervals, the compressed air and the vacuum of such kind on storage tank, intermediate tank or waste water tank is abandoned in that the desired conveying effects for the fresh water, the rinsing water or the wastewater are thereby achieved. A disadvantage of such solutions, however, is that for the operation of such a control device both compressed air and vacuum and electrical energy must be available. As a result, the connection of such a sanitary device is complicated, which is particularly disadvantageous when the sanitary device to be installed on board of vehicles such as rail vehicles.

There is basically a need for sanitary facilities or control facilities for such sanitary facilities that achieve a reliable control of the operation and this can be installed and operated in a simpler way with lower infrastructure requirements for the energy to be provided. The invention has for its object to provide such a control unit, with both the installation and the operation of such a sanitary device can be simplified.

This object is achieved by means of a valve control device of the type described above, in which a coupled to the valve tappet compressed air valve unit with a valve body which blocks in the first position of the valve stem to the housing a compressed air input to a compressed air outlet, and in the second position of the valve stem to the housing provides a connection between the compressed air inlet to the compressed air outlet, is provided.

With the control valve device according to the invention, a control device is provided, which can be installed in a simpler manner and can control the processes of a sanitary device. At the same time, a robust control device is provided with the valve control device according to the invention. The control valve device according to the invention is in particular is improved with respect to its connection interface with respect to the previously known control devices and is designed to control the transport of fresh water, rinse water and / or wastewater in a sanitary device. In this case, the transport of the fresh water or rinse water or wastewater can take place both by means of compressed air and by means of a vacuum in the sanitary device. According to the invention, only one compressed air source is required for this control by means of the control valve device.

The control valve device according to the invention can therefore dispense with an external vacuum pressure air source for controlling the process as well as electrical energy or electronic control devices. Instead controls the control valve device according to the invention, if a vacuum is required for the operations, starting from a compressed air source to a compressed air operated vacuum device and controls in dependence of the one hand, provided compressed air and the other hand, generated by the vacuum the operation of the sanitary device in full.

For this purpose, the control valve device has a valve housing, which is basically subdivided into three chambers. These chambers are separated from each other by first and second seals, said first and second seals being opened and closed in a specific manner by movement of a valve lifter relative to the housing. The valve lifter is further adapted to actuate a compressed air valve unit by closing this compressed air valve unit in the first position of the valve lifter and being open in the second position of the valve lifter. The valve stem can be manually operated by a user of the control valve device, which can be done for example by direct application of force to an actuating surface on the valve stem, for example, designed as a push button actuating surface, but also can be done indirectly via actuation mechanisms or actuators.

By such a movement of the valve stem from the first to the second position, the compressed air valve unit is opened directly, thus allowing a compressed air supply from the compressed air source. This compressed air supply can be used directly for the transport of fresh / rinsing or waste water. The compressed air can furthermore be used to pressurize an ejector device with compressed air and to generate a vacuum therein, for example by means of the Venturi effect.

A directly or indirectly generated as a result of the application of compressed air vacuum can then be supplied to the control valve device according to the invention and introduced via the first vacuum line connection in the vacuum chamber from which it acts directly in the intermediate chamber in the second position of the valve stem. Due to the sealing by the second seal between the intermediate chamber and the ambient pressure chamber in the second position, this creates a force acting on the valve stem force by the pressure difference between the intermediate chamber and the ambient pressure chamber, which becomes higher, the stronger the vacuum in the intermediate chamber. As a result of this force build-up, when a predetermined vacuum is exceeded, the valve tappet is moved back out of the second position into the first position, thereby interrupting the supply of compressed air by means of the compressed-air valve unit.

The control valve device according to the invention also makes it possible to forward the introduced into the pressure chamber vacuum in the first position to the second vacuum line connection in the intermediate chamber and thereby control, for example, a timing device. This passage is interrupted in the first position when the first seal seals the vacuum chamber from the intermediate chamber, so that ventilation on the side of the vacuum chamber or the intermediate chamber does not reduce the vacuum on the other side.

The first and second seals provided in the control valve device according to the invention may be designed such that a surface pressure is exerted directly on the seal by a pressure difference which acts via the seal and this surface pressure is transferred from the seal to the valve lifter to the movement to effect the valve stem. Likewise, the first or the second seal may be formed so that they only produce a sealing effect between the valve stem and the housing and the valve stem has a corresponding surface is formed, acts on the seal between the valve stem and housing the pressure difference by either the negative pressure or the ambient pressure abuts against this surface and on one side exerts a force on the valve stem.

In principle, the forces which act on the valve tappet by means of the negative pressure and the ambient pressure and influence its position with respect to the housing can additionally be influenced by other forces. For this purpose, some advantageous embodiments are explained in the following examples. Such additional forces may be provided by biasing means, which may generally include elastic spring elements in the form of coil springs, other types of spring, elastomeric elements or the like be generated by magnetic forces by permanent magnet action or electromagnetic effects or by force generated by gravity on the valve lifter or mass elements coupled thereto. In principle, the triggering force, the restoring force and time sequences between triggering and resetting as well as a triggering that is again possible after resetting can be influenced and adjusted by such additional force actions on the valve stem.

According to a first preferred embodiment it is provided that the valve stem extends from the first to a second end and is coupled at the second end to the compressed air valve unit. By the coupling of the valve stem with the compressed air valve unit at the second end of the valve stem an immediate actuation of the compressed air valve unit is made possible via the arranged at the first end actuator and achieves a robust transmission of the actuating force. The coupling of the compressed air valve unit with the valve stem can both by direct mechanical connection such as an integral version of the valve body of the compressed air valve unit on the valve lifter, by means of a mechanical articulation of the valve body via the second end of the valve stem or as indirect coupling by means of force transmission effects such as friction, pneumatic transmission, magnetic Power transmission or the like done.

According to a further preferred embodiment, the control valve device can be formed by a magnet and by the fact that the valve body is actuated by means of magnetic action of the magnet. According to this embodiment, a magnet is part of the control valve means and serves to actuate the valve body, that is to switch the compressed air valve unit between the open and the closed position back and forth. The magnet can be supported by other force-acting elements, such as spring elements or otherwise restoring elements or acted upon by a counter force. In principle, the magnet can be arranged on the valve tappet or on the valve body and in each case cooperate with a corresponding magnetic element on the valve body or on the valve tappet, wherein this magnetic element can be made ferromagnetic, paramagnetic or diamagnetic. In the same way, an indirect loading of a magnet via a coupling with the valve stem or the valve body can take place in order to convert the magnetic force effect from the movement of the valve stem into a movement of the valve body.

Preferably, the magnet is a permanent magnet. In other embodiments, an electromagnet can also be used in the control valve device according to the invention.

It can be provided in particular that the valve body of the compressed air valve unit is opened by the magnetic effect or that the valve body of the compressed air valve unit is closed by the magnetic effect. With respect to these two variants, it is to be understood that the magnetic effect is influenced by corresponding additional force-acting elements which, as described above, can influence the movement of valve bodies in such a way that a restoring effect against the magnetic force or an assisting effect of the magnetic force is thereby caused.

In the embodiment of the control valve device with a magnet for actuating the valve body may further preferably be provided that the valve body is moved in the second position of the valve stem by magnetic action of a magnet in the open position or in the first position of the valve stem by magnetic action of a magnet in the closed position is moved. In this embodiment, the compressed air valve unit is opened either in the second position of the valve stem or closed in the first position of the valve stem. This actuation may be assisted by correspondingly further means, such as elastic elements acting on the valve body, by correspondingly pushing the valve body in the first position through this further means into the closed position or correspondingly in the second position by the further means is moved to the open position.

A further preferred embodiment comprises a first biasing means which exerts on the valve body a biasing force acting against the magnetic action. Such a biasing device may be performed for example by a spring element in the form of a coil spring or other spring design or in the form of a rubber-elastic element. By the action of this biasing device against the magnetic action, the operating force and the triggering time of the compressed air valve unit can be preset. In addition, by the biasing means and the restoring force can be preset, which is necessary to return the compressed air valve unit from the open position to the closed position.

It is even further preferred if the magnetic effect between the magnet and a magnetic element acts, one of which is arranged on the valve stem and the other on the valve body are and that in the first position of the valve stem, the distance between the magnet and the magnetic element is so large that the magnetic force is smaller than the biasing force, and in the second position of the valve stem, the distance between the magnet and the magnetic element is so small that the magnetic Force is greater than the preload force. With this embodiment, the magnetic force is increased by the approach of the magnet to a magnetic element as a result of the movement of the valve stem from the first to the second position and thereby generates a magnetic force which is increased in the second position relative to the first position so that they now exceeds a preload force of the pretensioner that it has not previously exceeded. The biasing means therefore keeps closed in the first position the valve body, whereas in the second position of the valve stem it is overcome by the magnetic force and the valve body is thereby moved to the open position. In principle, the magnet may be arranged on the valve tappet and the magnet element on the valve body or vice versa. Furthermore, it is to be understood that an overpressure or negative pressure can be established by the processes occurring as a result of the compressed air supply, which can then exert an additional force on the valve stem, for example by a vacuum is applied to the first vacuum line connection and thereby a force on the valve lifter acting, which causes a return of the valve stem from the second position to the first position.

It is particularly preferred to further develop the control valve device according to the invention by a bidirectionally acting locking element, which causes a latching force between the valve stem and valve housing in the first and second positions, wherein the locking element is preferably designed to the valve stem with a predetermined first holding force in the first Hold position, when a predetermined operating force on the actuating element is exceeded to allow the movement of the valve stem from the first to the second position to hold the valve stem in the second position with a predetermined second holding force, and the movement when a predetermined negative pressure in the intermediate chamber is exceeded allow the valve stem from the second to the first position. With this training, on the one hand, a predetermined actuating force is defined, which must be applied to trigger the rinsing process by means of the control valve device. In addition, a predetermined negative pressure is defined, which must first be set up to end the flushing process. The valve stem is respectively maintained in the first and second positions with respective first and second holding forces, which may be different or the same. The latching element can be formed, for example, by means of a spring-actuated element or a spring element, which is fastened to the valve housing and acts on a depression or elevation on the valve tappet provided on both sides with ramps or conical surfaces or the like. It may also be formed by a spring-actuated element which cooperates with two spaced apart on the valve tappet depressions or elevations. Likewise, two Federlemente cooperate with a single survey or depression on the valve lifter. The spring-actuated element may be, for example, a spring loaded ball, a spring loaded shoe, a spring clip cooperating with one or two conical surfaces, or the like.

Alternatively or additionally, in the control valve device equipped with a magnet, it is preferable that the valve lifter is held in the second position by the magnetic force and that a negative pressure built up in the second position in the intermediate chamber communicates with an ambient pressure in the atmospheric pressure chamber magnetic force acting restoring force exerts on the valve stem, which moves upon reaching a predetermined negative pressure in the intermediate chamber, the valve stem against the magnetic force from the second position to the first position. In this embodiment, the valve stem is held by the magnetic force in the second position and a build-up negative pressure is introduced into the vacuum chamber and thus connected in this first position with the Unterdruckkamer intermediate chamber and causes a pressure difference to the ambient pressure chamber, a force acting on the valve lifter Furthermore, it is preferred that the control valve device according to the invention be further developed by a second pretensioning device which projects the valve plunger out of the second into the first position. By such a second biasing direction, which in turn can be designed as a spring element, rubber-elastic element or the like, a restoring force is effected on the valve stem and allows adjustment, which influences both the release force with which the valve stem moves from the first to the second position must be as well as the necessary restoring force, which acts on the valve stem by a pressure difference between the intermediate chamber and the ambient pressure chamber, influenced.

According to the invention it is further preferred that the valve body is relatively movable to the valve stem and the housing. In this embodiment, there is no direct connection between the valve stem, and valve body and housing, but these three components are each movable relative to each other. This allows one hand a cost-effective manner of manufacture, in that fits and tolerances, which would have to be selected according to a possible direct coupling in order to avoid jamming or jamming, are not required. Instead, the respective components, such as the valve stem and the valve body can be tolerated in their own leadership and offset by mutually provided force effects on each other, for example, by the above-described magnetic coupling, in mutually dependent movements.

According to a further preferred embodiment it is provided that the magnet is attached to the second end of the valve stem and cooperates with a magnetic element which is coupled to the valve body or integrally formed on the valve body, or that the magnet is fixed to the valve body and with a magnetic Element cooperates, which is coupled to the second end of the valve stem or integrally formed on the second end of the valve stem. In this embodiment, either the magnet is attached to the valve lifter and cooperates with a magnetic element, which may be ferromagnetic, para or diamagnetic, which is arranged on the valve body. In this case, both magnet and magnetic element can be formed integrally with the valve tappet or valve body, connected to it in another way, coupled or attached thereto.

Alternatively, a reverse configuration may be provided in which the magnet is disposed on the valve body and the magnetic element is disposed correspondingly on the second end of the valve lifter.

The control valve device according to the invention can be further developed by either the first seal is attached to the valve stem and seals against a conical, in the direction of movement from the first second expanding the first sealing surface on the housing, and the second seal is attached to the housing and against a conical , the second sealing surface flaring from the second to the first end of the valve stem seals on the valve stem or by the first seal is fixed to the housing and seals against a conical, extending from the first to the second end of the valve stem second sealing surface on the valve stem, and the second seal on the valve stem is fastened and seals against a conical, in the direction of movement from the second to the first position widening first sealing surface on the housing.

With these two variants of an embodiment, a preferred embodiment of the first and second seals and their sealing counter surfaces is defined. The thereby provided tapering of the sealing surfaces on the housing or on the valve stem cause an advantageous gradual reduction of the sealing gap upon movement of the valve stem relative to the housing, whereby sudden changes in the force on the valve stem can be avoided and a reliable seal between the valve stem and housing on the respective seal increasing valve lifter travel can be achieved.

Finally, the control valve device according to the invention can be further developed by an ejector device having an ejector pressure air connection and an ejector vacuum connection, which is designed to generate a vacuum at the ejector connection when the ejector pressure air connection is pressurized with compressed air, the ejector pressure air connection being in fluid communication with the compressed air output, and the ejector vacuum connection the first vacuum line connection is in fluid communication. Furthermore, the control valve unit according to the invention can alternatively or additionally be developed by a time delay unit with an air connection, which is in fluid communication with the second vacuum line connection.

With this embodiment, an ejector device is defined, which is supplied via the supplied from the compressed air valve unit compressed air and generates a vacuum, which in turn is introduced to the first vacuum line connection of the housing and consequently in the vacuum chamber. As a result of this interaction, an advantageous control effect is achieved between the compressed-air valve unit, the ejector device charged therefrom, the vacuum generated therein and the valve tappet in the housing with the vacuum effect on the vacuum chamber or intermediate chamber. Furthermore, the advantageous possibility of controlling a time delay unit via the second vacuum line connection out of the intermediate chamber is used, which is sealed in the first position relative to the vacuum chamber and in the second position with the vacuum chamber in communication. Reference is made to the closer functioning and interaction of such an ejector device and such a time delay unit and their interaction with the control valve device according to the invention to those in the German utility model DE 20 2013 004 015 described pneumatic control arrangement for a vacuum toilet, which is an actuating coupling unit 150 as such a time delay unit.

• – Manuelles Bewegen eines relativ zu einem Ventilgehäuse beweglich angeordneten Ventilstößels aus einer ersten Stellung in eine zweite Stellung durch Betätigen eines Betätigungselements,
• – Öffnen einer mit dem Ventilstößel gekoppelten Druckluftventileinheit in der zweiten Stellung,
• – Zufuhr von Druckluft zu einer Ejektorvorrchtung bei geöffneter Druckluftventileinheit und Aufbau eines Vakuums an einem Vakuumanschluss der Ejektorvorrchtung,
• – Beaufschlagen einer in dem Ventilgehäuse angeordneten Zwischenkammer, die in der zweiten Stellung des Ventilstößels gegemn eine Umgebungsdruckkammer abgedichtet ist, mit dem Vakuum aus dem Vakuumanschluss der Ejektorvorrichtung,
• – Rückbewegen des Ventilstößels aus der zweiten in die erste Stellung bei Erreichen eines vorbestimmten Unterdrucks in der Zwischenkammer durch Einwirken des Umgebungsdrucks in der Umgebungsdruckkamer auf eine Fläche am Ventilstößel.

The control valve device according to the invention may preferably according to a method for Control of a sanitary device to be operated, comprising the steps:

• Manually moving a valve stem movably arranged relative to a valve housing from a first position to a second position by actuating an actuating element,
• Opening a compressed air valve unit coupled to the valve lifter in the second position,
• Supply of compressed air to an ejector device with the compressed air valve unit open and building up a vacuum at a vacuum connection of the ejector device,
• Pressurizing an intermediate chamber arranged in the valve housing, which in the second position of the valve tappet is sealed against an ambient pressure chamber, with the vacuum from the vacuum connection of the ejector device,
• - Returning the valve stem from the second to the first position upon reaching a predetermined negative pressure in the intermediate chamber by the action of the ambient pressure in the ambient pressure chamber on a surface on the valve stem.

It is particularly preferred if the compressed air valve unit is actuated by means of a magnet and the magnetic force holds the valve stem in the second position.

With regard to these procedures and the individual steps, the functions and preferred embodiments thereof, reference is made to the above-described description of the control valve device and its mode of operation.

A preferred embodiment of the invention will be explained in more detail with reference to FIGS.

1 shows a schematic view of a control valve device according to the invention.

2 shows a schematic arrangement of a equipped with a timing pneumatic control device for a vacuum toilet.

Referring first to 1 has a control valve device according to the invention 1 a valve housing 10 on, in which a valve tappet 20 is movably guided along an actuating direction.

The valve lifter 20 sticks out at its upper end 20a from the valve body 10 out and wear at this top end 20a an actuating button 21 , At its lower end 20b protrudes the valve lifter 20 also from the valve body 10 out and is at this lower end with an axial longitudinal bore 22 Mistake. The axial longitudinal bore 22 will be at the bottom 20b of the valve stem of a ring magnet 30 surround.

The valve housing 10 encloses an interior, passing through a first seal 41 and a second seal 42 a total of three chambers is divided. Starting from the top 20a the valve stem becomes a vacuum chamber 11 through the housing and the first seal attached to the valve lifter 41 limited. This vacuum chamber 11 is through a first vacuum line connection 12 to a vacuum line 12a connected.

The first, attached to the valve lifter seal 41 seals against a conical housing wall section 13 starting in the direction of the upper end 20a rejuvenated. As a result, upon depression of the valve stem via the actuating button 21 with increasing actuation a progressively larger cross-section between the vacuum chamber 11 and an intermediate chamber 14 Approved.

The intermediate chamber 14 gets through the first seal 41 , the second seal 42 and the case 10 limited and has a second vacuum line connection 15 on. The second seal 42 is stationary on the housing 10 attached and has an inner bore 42a on. The inner bore 42a acts against a sealing cone 23 formed on the valve lifter. The sealing cone 23 extends its cross-sectional diameter from the second end 20b to the first end 20a , In the unactuated, upper position of the valve lifter 20 Therefore, there is a fluid connection between the intermediate chamber 14 and an ambient pressure chamber 16 , When depressing the valve lifter 20 the passage cross section through the opening 42a the seal 42 increasingly reduced and completely closed at a certain actuation of the valve lifter. To the cone sealing surface 23 closes in the direction of the upper end 20a a cylindrical, außenumfängliche sealing surface, so even with further actuation of the valve lifter 20 the sealing effect to the second seal 42 is maintained.

The ambient pressure camera 16 is connected to the ambient pressure via the lower opening of the housing. Within the ambient pressure chamber 16 points the valve lifter 20 a bilaterally conical thickening 24 on that with a spring catch element 50 cooperates, which is attached to the valve body. When the valve stem is pressed down, the downward-pointing conical surface acts 24a against the spring detent element 50 and deflects this elastically radially outward until at a predetermined pressing force on the actuating button 21 the spring detent the thickest point of thickening 24 skips and the movement of the Valve tappet in the second position permits. There, the valve stem is held by the now radially inwardly elastically deformed spring detent element 50 against the upper conical surface 24b the thickening 24 is applied. When building a negative pressure in the intermediate chamber 14 becomes the spring detent element 50 again radially outwardly elastically deflected by the conical surface 24b is pulled up until the spring detent element 50 upon reaching a predetermined negative pressure turn spring detent the thickest point of thickening 24 now jumps in the opposite direction and allows the movement of the valve stem back to the first position.

In extension of the hole 22 in the valve tappet is a ferromagnetic valve body 61 arranged. The ferromagnetic valve body 61 is in a leadership 62 movably arranged and can be within this guidance 62 moving in the same direction as the valve lifter 20 , At the top of the guide 62 is a second coil spring 63 arranged the ferromagnetic valve body 61 in a lower, closed position presses.

In this lower, closed position, the valve body closes 61 a compressed air line 60 ,

If the valve tappet on the actuator 21 from the first, upper position in a second, lower position pressed down, so this is the magnet 30 closer to the ferromagnetic valve body 61 moves and the magnetic force of the magnet on the ferromagnetic valve body 61 thereby increased. This increase causes a lifting of the valve body 61 from the in 1 illustrated closed position against the spring force of the second coil spring 63 in a raised, open position. In this raised, open position, the flow is through the compressed air line 60 from a compressed air inlet 83 to a compressed air outlet 84 Approved.

At the same time by lowering the valve stem from the first, upper position to the second, lower position, the sealing effect of the first seal 41 lifted against the housing and the sealing effect of the second seal 42 made against the valve lifter. The vacuum chamber 11 and the intermediate chamber 15 are therefore in fluid communication, whereas the intermediate chamber 15 from the ambient pressure chamber 17 is sealed.

The compressed air line 60 pressurized via the compressed air outlet 84 an ejector device 100 which generates a negative pressure by means of the Venturi principle. This negative pressure is via the vacuum line 12a in the vacuum chamber 11 initiated. As a result of the build-up of the negative pressure in the vacuum chamber 11 and the intermediate chamber 14 Therefore, the ambient pressure acts on the conical sealing surface 23 the valve stem as a result of the building up pressure difference between the intermediate chamber 14 and the ambient pressure chamber 16 , As a result, a restoring force acts on the valve stem 20 , which moves the valve stem back from the lower, second position to the upper, first position. This restoring force is caused by the first spiral spring 51 and a third coil spring 53 supported.

By this return movement in the first, upper position of the valve stem, the distance between the magnet and the ferromagnetic valve body 61 increases and the magnetic force from the magnet 30 on the ferromagnetic valve body 61 acts, thereby reducing. This magnetic force then falls below the restoring force of the coil spring 52 so that the valve body 61 is moved back into the lowered, closing position and the compressed air supply to the Ejektorvorrichtung 100 interrupts.

2 shows the control valve device according to the invention 1 in a mounting situation to control a vacuum toilet. The entire control device comprises in addition to the control valve device according to the invention 1 and the ejector device 100 still an actuation coupling unit 150 , which acts as a time delay unit, a distribution valve unit 130 , a rinse water valve unit 170 and a rinse water unit 190 , The rinse water valve unit 170 is via a compressed air inlet 183 supplied with compressed air. The vacuum generated in the ejector device is via the vacuum line 12a to the distribution valve unit 130 directed and from there in dependence of the timing by the Betätigungskopplungseinheit 150 via the vacuum line 12b on the first vacuum line connection 12 the control valve device 1 given up. This vacuum is via the second vacuum line connection 15 on the actuating coupling unit 150 given up.

That in the ejector 100 Vacuum generated is via one of the vacuum line 12a branched vacuum line 12c on a waste water tank 200 given up. Furthermore, this will happen in the ejector 100 generated vacuum via the distribution valve unit 130 on a connection 135 and from there via a vacuum line 171 to the rinse water valve unit 170 directed.

Regarding the operation of the actuating coupling unit 150 , the distribution valve unit 130 , the rinse water valve unit 170 and the rinse water unit 190 Reference is made to the description of the embodiment in DE 20 2013 004 015 taken. The relationships explained therein and control-related processes with respect to this Components is in the same way to the embodiment according to 2 applicable with the control valve device according to the invention.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 202013004015 [0002, 0052]
• DE 202013004015 U [0031]

Claims (14)

Control valve device for a control of a sanitary device, comprising - A valve housing with A vacuum chamber communicating with a first vacuum line port for connection to a vacuum line, - An intermediate chamber, which communicates with a second vacuum line connection for connection to a second vacuum line, and - An ambient pressure chamber, which communicates with the environment by means of a ventilation opening A valve lifter movable relative to the housing and having a manually operable actuator at a first end, - A first, cooperating with the housing and the valve stem seal, the - In a first position of the valve stem to the housing, the negative pressure chamber seals against the intermediate chamber and In a second position of the valve tappet releases a connection between the vacuum chamber and the intermediate chamber to the housing, - A second, cooperating with the housing and the valve stem seal, the - In a first position of the valve stem to the housing a connection between the intermediate chamber and the ambient pressure chamber releases and - In the second position of the valve stem to the housing, the intermediate chamber seals against the ambient pressure chamber, marked by a coupled to the valve tappet compressed air valve unit having a valve body, the - Locks in the first position of the valve stem to the housing a compressed air inlet to a compressed air outlet, and - In the second position of the valve stem to the housing releases a connection between the compressed air inlet to the compressed air outlet. Control valve device according to claim 1, characterized in that the valve stem extends from the first to a second end and is coupled at the second end to the compressed air valve unit. Control valve device according to claim 1 or 2, characterized by a magnet and in that the valve body is actuated by means of magnetic action of the magnet. Control valve device according to claim 3, characterized in that the valve body of the compressed air valve unit is opened by the magnetic effect or that the valve body of the compressed air valve unit is closed by the magnetic effect. Control valve device according to one of the preceding claims, characterized by a bidirectional locking element, which causes a latching force between the valve stem and the valve housing in the first and the second position, wherein the locking element is preferably designed to To hold the valve lifter in the first position with a predetermined first holding force, - When a predetermined operating force is exceeded on the actuating element to allow the movement of the valve stem from the first to the second position. To hold the valve lifter in the second position with a predetermined second holding force, - To allow the movement of the valve stem from the second to the first position when a predetermined negative pressure in the intermediate chamber is exceeded. Control valve device according to claim 3, 4 or 5, characterized by a first biasing means which exerts on the valve body a biasing force acting against the magnetic action. Control valve device according to claim 6, characterized in that the magnetic action between the magnet and a magnetic element acts, one of which is arranged on the valve tappet and the other on the valve body, and that - In the first position of the valve stem, the distance between the magnet and the magnetic element is so large that the magnetic force is smaller than the biasing force, and - In the second position of the valve stem, the distance between the magnet and the magnetic element is so small that the magnetic force is greater than the biasing force. Control valve device according to one of claims 3-7, characterized in that the valve stem is held by the magnetic force in the second position and that a built-up in the second position vacuum in the intermediate chamber in conjunction with an ambient pressure in the ambient pressure chamber against this magnetic force acting restoring force on the valve lifter, which moves the valve lifter against the magnetic force from the second position to the first position upon reaching a predetermined negative pressure in the intermediate chamber. Control valve device according to one of the preceding claims, characterized by a second biasing means, which biases the valve stem from the second to the first position. Control valve device according to one of the preceding claims, characterized characterized in that the valve body is relatively movable to the valve stem and the housing. Control valve device according to one of claims 3-10, characterized in that the magnet is fixed to the second end of the valve stem and cooperates with a magnetic element which is coupled to the valve body or integrally formed on the valve body, or that the magnet is fixed to the valve body and cooperating with a magnetic element coupled to the second end of the valve lifter or integrally formed on the second end of the valve lifter. Control valve device according to one of the preceding claims, characterized in that - the first seal is attached to the valve stem and seals against a conical, in the direction of movement of the first second expanding the first sealing surface on the housing, and - the second seal is attached to the housing and against a conical, extending from the second to the first end of the valve stem second sealing surface on the valve stem seals. Control valve device according to one of the preceding claims 1-11, characterized in that - the first seal is fixed to the housing and seals against a conical, widening from the first to the second end of the valve stem second sealing surface on the valve stem, and - the second seal is fixed to the valve stem and seals against a conical, in the direction of movement from the second to the first position widening first sealing surface on the housing. Control valve device according to one of the preceding claims, marked by An ejector device having an ejector compressed air port and an ejector vacuum port configured to generate a vacuum at the ejector vacuum port upon pressurization of the ejector compressed air port with compressed air, wherein - The Ejektordruckluftanschluss is in fluid communication with the compressed air outlet, and - The Ejektorvakuumanschluss is in fluid communication with the first vacuum line connection. and or A time delay unit having an air port in fluid communication with the second vacuum line port.

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