DE10258832A1 - Valve, for a domestic steam cleaning appliance, has a valve spindle to give a choice of dry steam or a wet steam mixture - Google Patents

Abstract

The valve (10), especially for a domestic steam cleaning appliance, has a ring channel (36) inlet for the steam and an inlet (32) for a liquid. A valve spindle setting unit (14) gives a selective delivery of steam alone or a mixture of steam and liquid, and sets their volume flows through the outflow (60). The fixture for delivery can only start when the flow is at a minimum value. Initial rotation of the valve spindle gives only steam, with further rotation to introduce the liquid at an increasing rate.

Description

The invention relates to a valve, especially for a steam cleaner, with a first inlet for vaporous medium and a second inlet for liquid medium, which with an outlet to Dispensing of liquid and vapor Medium in flow connection stand, being between the inlets and the outlet Actuating element is held movably.

Steam cleaners will be meanwhile increasingly used in the private sector to get there enable effective cleaning of objects and surfaces. Cleaning with hot steam is effective because of the high temperature of the incident Steam is an effective solution effect occurs. To increase the cleaning effect can be beneficial be liquid to the steam jet Water for the generation of wet steam to mix.

From the DE 44 06 222 C2 a water-water vapor mixing device is known, into which shut-off supply lines for water and for water vapor open and in which a cylindrical control element is axially displaceably mounted to control the flow rate of a mixture of water and water vapor. The known mixing device comprises separate feed lines for water and for water vapor. The ratio of water to water vapor can be set by means of a control unit. The control unit also takes on the function of a safety valve, since it prevents the supply of water vapor to the mixing device if there is no water supply to the mixing device. The mixing device also comprises a cylindrical, axially displaceable adjusting element for controlling the amount of discharge of the mixture of water and water vapor. The use of water pressure-dependent control and safety valves can result in a fault sensitivity of the water-water vapor mixing device and is associated with not inconsiderable manufacturing costs.

The in the DE 44 06 222 C2 The water-water vapor mixing device described is used exclusively for the generation of wet steam; this device is not suitable for providing dry steam.

Object of the present invention is to develop a valve of the type mentioned at the outset in such a way that it a structurally simpler and less sensitive structure has and optionally allows the release of dry steam and wet steam.

This task is done with a valve of the generic type according to the invention solved that by means of of the control element the delivery of either vaporous medium or a mixture of vapor and fluid Medium is adjustable.

By means of the valve according to the invention can be dependent from the position of the control element either dry steam or wet steam ready be put. The latter is made by mixing liquid and vaporous Medium can be generated in the valve. The exit of either dry or wet steam is controllable by means of a single control element, so that the operation accordingly clear and is simple. Moreover allows the use of the element is structurally simple and insensitive to interference Valve assembly.

It is advantageous if by means of of the control element the flow rate of the vapor Medium (dry steam) and the mixture of vapor and liquid Medium (wet steam) is adjustable. This gives the operator the opportunity to discharge of vaporous Medium or the mixture of vaporous and liquid medium adapt to the respective purpose and thus the consumption of these Control media. For this purpose, the valve according to the invention can have a position marker be provided that an operator reading the type and the flow rate of the medium set on the valve allowed. Possible incorrect settings are easily recognizable by the position marking and can be thus avoid.

It is particularly advantageous if by means of the actuating element, the proportion of liquid medium emerging from the outlet Mixture of vapor and fluid Medium is adjustable. This ensures that the operator the moisture content of the wet steam can adapt to the respective requirements and the consumption of liquid Medium is more controllable.

In a preferred embodiment of the valve according to the invention, the mixture of vaporous and liquid medium can only be dispensed when the flow rate of the vaporous medium has reached a minimum value. Mixing of liquid medium and vaporous medium is particularly effective when the flow rate of the vaporous medium and thus also the flow rate of the vaporous medium reaches a minimum value. At a correspondingly high flow velocity, particles of the liquid medium are torn open and distributed evenly in the steam flow. The minimum value can be, for example, approximately 75% of the maximum flow rate of the vaporous medium. It has been shown that a largely homogeneous wet steam flow can be generated from such a minimum value. Optimal mixing is achieved when the mixture of vaporous and liquid medium can only be dispensed at maximum flow rate of the vaporous medium.

It is an advantage if starting out from a closed position of the control element, in which neither vaporous medium nor a mixture of vaporous and fluid Medium can be dispensed by moving the control element in a Direction of movement initially only vapor Medium with increasing flow rate is dispensable, and that from exceeding an intermediate position of the control element, the mixture of vapor and liquid Medium can be dispensed with an increasing proportion of liquid medium. Such a configuration of the actuator makes it possible to Only move the control element in a first range of motion the discharge amount of vapor Vary medium. If the control element moves in the same direction of movement over the first Movement range moves out, so when a predetermined one is exceeded Intermediate position of the control element reaches a range of motion, within which a mixture of liquid and vapor medium can be delivered, the proportion of liquid medium depending from the position of the actuator within the second range of motion can be varied.

Alternatively, it can be provided that starting from a closed position of the control element, in which neither vaporous medium nor a mixture of vaporous and fluid Medium can be dispensed by moving the control element in a in the first direction of movement only vaporous medium with increasing flow is dispensable, and that starting from the closed position Moving the actuator in a second direction of movement Mixture of vapor and fluid Medium can be dispensed with an increasing proportion of liquid medium. With such a Design of the valve, the user can start from a closed position choose, whether he only wants to use dry steam, moving it of the control element in a first direction of movement the discharge amount may vary, or whether it is wet steam want to use by moving the actuator from the closed position moves in a second direction of motion, taking the share of liquid Can set medium.

In an advantageous embodiment of the valve according to the invention the valve has a first recess for guiding the vaporous and liquid medium on, the flow of the Media can be changed through the first recess by means of the actuating element is. This gives the operator the option of the total discharge of vaporous Medium or the mixture of vaporous and liquid medium adjust according to the respective application and consumption to control these media.

It is advantageous if the flow of the media through the first recess by means of the adjusting element continuously variable is. This ensures that the Total discharge is continuously adjustable, preferably via the entire range from 0% to 100% of the maximum flow rate.

It is particularly advantageous if the first recess is made in the actuating element.

In a particularly preferred embodiment of the valve according to the invention the valve has a second recess for feeding liquid Vapor medium Medium, the flow of the liquid Medium can be changed through the second recess by means of the actuating element is. This ensures in a structurally simple manner that that the Liquid medium content of the mixture of vapor and liquid Medium is adjustable by means of the actuator.

It is advantageous if the flow of the liquid medium through the second recess by means of the adjusting element continuously is changeable. This will give you the opportunity given the proportion of liquid Medium of the mixture of vapor and fluid Medium continuously according to the respective requirements to change.

conveniently, the second recess is made in the actuating element.

In a preferred embodiment of the valve according to the invention it is provided that the control element is rotatably held.

It is expedient if the valve comprises a valve body and the adjusting element forms a rotary spindle which is rotatably mounted in the valve body, the first and the second recess being arranged at a distance from one another in the longitudinal direction of the rotary spindle. This makes it possible to simultaneously change the flow of the media through the first and the second recess by turning the rotating spindle. Which media flow rate is set at a certain position of the rotary spindle relative to the valve body depends on the relative position of the two recesses with respect to the direction of rotation of the rotary spindle. It can be provided that within a first range of movement of the rotating spindle the flow through the first recess can be changed while the flow is blocked by the second recess, and within a second range of movement of the rotating spindle the flow through the first recess can be completely released and the flow through the second recess can be adjustable. If the rotary spindle assumes a position within the first range of motion, only dry steam with a position-dependent flow rate can be emitted by the valve, whereas the rotary spindle assumes a position within the second range of motion, at maxi Painter flow rate of vaporous medium a position-dependent amount of liquid medium are added.

conveniently, points the valve body a through hole into which the rotating spindle is immersed and which forms an inlet for liquid medium. The through hole serves on the one hand as a bearing for the rotatable mounted rotary spindle and on the other forms one end of the through hole the inlet for liquid medium out.

The valve body advantageously comprises one Ring flange, which is a flow channel has, the flow channel an inlet for vaporous medium formed. The valve is, for example, by means of the ring flange fixable on a steam generator, and the valve is vaporous medium via the flow channel fed.

It is particularly advantageous if in the area of the inlet for liquid medium facing the end of the rotary spindle, the second recess is and the inlet for liquid medium through the second recess with the inlet for vaporous medium in flow connection stands. This makes production simpler and therefore less expensive Given away, an opening and closing the flow connection between the liquid medium inlet and the vapor medium inlet by means of actuation of the rotating spindle.

In a preferred embodiment According to the invention, the second recess extends in the circumferential direction of the control element only along a partial area of the control element and the flow of the liquid Medium through the second recess is by rotating the Adjusting element adjustable. By designing the second recess such that they only in the circumferential direction extends a portion of the actuator, the actuator in the manner of a rotary valve a flow connection for the liquid medium release or interrupt. All that is required is that itself in the direction of flow of the liquid Medium connects a flow channel to the second recess, the inlet opening dependent on released more or less from the rotational position of the actuator is. The flow rate of the liquid Medium through the second recess can be easily Be set reproducibly.

Another advantageous embodiment of the valve according to the invention the second recess extends in the circumferential direction of the actuating element at least along a portion of the control element and opens into an end face of the control element and the flow of the liquid medium is by axial Displacement of the control element along its longitudinal axis adjustable. In such an embodiment, the flow rate of the liquid Medium by moving the actuator in the axial direction, this means along its longitudinal axis, can be set. The flow of the liquid medium takes place here starting from an end face of the control element, into which the second recess opens. By Axial displacement of the control element can affect the flow connection released more or less through the second recess become.

For example, it can be provided be that Valve comprises a sealing element, to the front face of the control element liquid-tight can be created. By contacting the preferably made of an elastomer manufactured sealing element can be the flow connection for the liquid medium be completely interrupted through the second recess. Becomes the actuator is moved in the axial direction, so the End face, into which the second recess opens, from the sealing element and the flow connection for the liquid Medium is released.

In a particularly preferred embodiment of the valve according to the invention the actuator is rotatable both about its longitudinal axis and in Direction of its longitudinal axis held axially displaceable. This enables the flow rates for the Mixture of vapor and liquid Medium on the one hand and for the liquid medium on the other hand by rotation or by axial displacement of the control element adjust. As particularly cheap it has proven here when the flow rate of the mixture of vapor and liquid Medium by rotating the element and the proportion of liquid medium of the mixture of vapor and fluid Medium adjustable by axial displacement of the control element are. The valve according to the invention can be operated particularly easily, for example can be provided that by Rotation of the control element about its longitudinal axis initially only the flow rate of the vapor Medium without a liquid Medium proportion changed can be subsequently an axial displacement of the control element can also take place, so that vaporous Share of additional liquid medium add out can be, depending on the axial position of the actuator certain proportion of liquid Medium of the mixture of vapor and fluid Medium can be specified.

Preferably, an axial displacement movement can be forcibly superimposed within a rotation angle range of a rotary movement of the actuating element. The manageability of the valve can thereby be considerably simplified, it being only necessary to adjust the flow rates by rotating the actuating element about its longitudinal axis. Due to the forced superimposition of an axial displacement movement when the control element rotates in a certain rotation Angular range of the rotary movement superimposed an axial displacement movement, without it being necessary, for example, that the actuator from a valve body is deliberately moved by the user in the axial direction.

The valve preferably has one valve body on, in which the actuator is movably held, the valve a leadership backdrop includes for guide of the control element within the valve body. The leadership backdrop preferably has a guide groove in which a guide body engages. The guide groove can, for example, be molded into the actuating element during the Guide body on valve body is set. Of course a configuration can also be used in which the valve body guide has while the guide body on Control element is held. The use of a management backdrop enables one particularly reproducible setting of the valve user desired flow on liquid and vapor Medium.

conveniently, comprises the valve according to the invention at least one seal for sealing the first and / or the second Recess. This will prevent accidental escape of vapor or liquid Avoided medium from the valve.

It can be provided that the valve is a Groove has to accommodate the seal. The seal has in the groove a tight fit, causing the slider to move or slip Seal is avoided.

conveniently, the groove for receiving the seal is made in the control element.

In a particularly preferred embodiment of the valve according to the invention includes that Valve stops to limit the range of motion of the control element. Thereby incorrect settings of the control element are avoided.

The stops of edge regions are advantageous formed a recess, with a particularly inexpensive to produce embodiment of the valve according to the invention the recess is made in the control element.

conveniently, a stop element is arranged on the valve, which in the recess intervenes. By the interaction of the stop element with the The recess is particularly insensitive to interference Construction created that the range of motion of the actuator limited. additionally the recess can also take on the function of a guide groove, while that Stop element also acts as a guide body, which, in combination with the recess, is a guide link for the control element of the valve.

In a particularly preferred embodiment of the valve according to the invention includes that Valve a shut-off device, which in a first position the flow connection between the inlets and releases the outlet and interrupts the flow connection in a second position. The Shut-off device gives the possibility the flow both of the vapor Medium as well as the mixture of vaporous and liquid medium Completely to prevent. The shut-off device can be used, for example, as a solenoid valve be designed.

The following description of preferred embodiments the invention serves in conjunction with the drawing for a more detailed explanation.

Show it:

1 : a partially sectioned perspective view of a first embodiment of a valve according to the invention;

2 : a perspective view of a rotary spindle of the valve according to 1 ;

3 : a sectional view of the valve according to 1 in a closed position;

4 : a sectional view of the valve according to 1 in a position open only for the passage of vaporous medium;

5 : a sectional view of the valve according to 1 in an open position for the passage of a mixture of vaporous and liquid medium;

6 : an operating diagram of the valve according to 1 ;

7 : a perspective view of a rotary spindle of a second embodiment of the valve according to the invention;

8th : an operating diagram of the second embodiment of the valve;

9 : a partially sectioned perspective view of a third embodiment of the valve according to the invention in a closed position;

10 a perspective view of a sealing element used in the third embodiment of the valve according to the invention;

11 : a partially sectioned perspective view accordingly 9 in an open position for the passage of a mixture of vaporous and liquid medium; and

12 : a perspective view of a rotary spindle of the third embodiment of the valve according to the invention.

In 1 is one with the reference symbol 10 occupied valve according to a first embodiment of the invention shown that a valve housing 12 has, in which in the form of a valve stem 14 trained actuator is rotatably mounted.

The valve housing 12 comprises a cylindrical valve body 16 , at one end a ring flange 18 is trained. The valve body 16 has an axial cylindrical through hole 20 in which the valve stem 14 dips.

On the outer surface of the valve body 16 is a cylindrical outlet body 22 with a tapered cylindrical extension 23 formed by a transverse to the longitudinal axis 17 the valve stem 14 aligned, an entrance opening 25 and an outlet 60 having outlet channel 24 leads into the the valve stem 14 receiving axial through hole 20 opens.

On the outer surface of the valve body 16 is also a cross to the longitudinal axis 17 the valve stem 14 aligned hollow cylinder 26 formed by an inlet opening 30 and an exit opening 29 having nozzle 28 with the axial through hole 20 is connected to the line. The outlet body 22 and the hollow cylinder 26 are with respect to the longitudinal axis of the valve stem 14 spaced from each other and lie in an axial projection of the valve 10 diametrically opposite each other.

The hollow cylinder 26 is used to hold a shut-off valve, not shown in the drawing, which is known per se, for example a solenoid valve, which in an open position has the inlet opening 30 of the neck 28 releases and thus allows the passage of vaporous and liquid medium and in a closed position the inlet opening 30 of the neck 28 blocked and so the media flow in the valve 10 in derogation.

On the the valve body 16 opposite bottom of the ring flange 18 forms the axial through hole 20 an inlet opening 32 from over which the valve 10 liquid medium can be supplied. Around the inlet opening 32 radially spaced around it is an annular step recess 34 introduced that a ring channel 36 to conduct fluid media, which forms by means of a ring seal 38 is sealable.

The ring channel 36 is over an oblique to the longitudinal axis 17 the valve stem 14 aligned entry channel 40 with the axial through hole 20 and via a parallel to the longitudinal axis of the valve spindle 14 aligned connection channel 42 with the hollow cylinder 26 line-connected. The entry channel 40 points at its through hole 20 end facing an inlet opening 41 on, via the entry channel 40 liquid medium can be supplied.

The valve stem 14 dips into the axial through hole 20 positively and is rotatably mounted in this. The valve stem 14 is so far in the through hole 20 introduced that the ring flange 18 facing end of the valve stem 14 the entrance opening 41 of the entry channel 40 surmounted.

On one the free end of the valve body 16 towering section 15 the valve stem 14 a handle, for example a knob, which is known per se and is therefore not shown in the drawing, can be fixed, by means of which the valve spindle can be rotated 14 relative to the valve body 12 is rotatable.

How especially out 2 becomes clear, has in the first embodiment of the valve according to the invention the outer surface of the valve stem 14 on their the ring flange 18 end facing a substantially triangular depression 43 on with a first, axially aligned edge 44 and a second, obliquely to the longitudinal axis 17 the valve stem 14 aligned edge 45 , In the recess 43 can through the inlet opening 32 liquid medium. By turning the valve stem 14 around the longitudinal axis 17 can the deepening 43 in the manner of a rotary valve partially or entirely with the inlet opening 41 of the entry channel 40 be brought to congruence, so that the ring channel 36 one of the free flow cross section of the inlet opening 41 dependent amount of liquid medium can be supplied.

Between the exit opening 29 of the neck 28 and the entrance opening 25 of the outlet duct 24 has the cylindrical outer surface of the valve stem 14 a circumferential fluid guide groove 47 on. The fluid guide groove 47 is designed such that it is in any rotational position of the valve spindle 14 with the outlet opening 29 of the neck 30 is aligned and thus a maximum volume flow of fluid media can be supplied to it over the entire adjustment range, while the cross-sectional area of the inlet opening 25 depending on the rotational position of the valve spindle 14 from the fluid guide groove 47 not, partially or completely covered, so that the amount of out of the valve 10 emerging volume flow of fluid medium by means of a rotation of the valve spindle 14 around the longitudinal axis 17 is continuously adjustable. For this purpose, the fluid guide groove comprises 47 a shutoff section 48 to which an extension section 49 connects, within which the fluid guide groove widens continuously in the axial direction and into a release section 50 passes with a continuous groove width.

Above and below the fluid guide groove 47 is an annular O-ring groove 52 respectively. 53 radially into the outer surface of the valve stem 14 introduced, being in the O-ring grooves 52 . 53 one each on the wall of the axial through hole 20 pressing ring seal 54 respectively. 55 is inserted, the inadvertent escape of fluid media from the valve 10 along the through hole 20 and liquid medium penetration from the recess 43 into the fluid guide groove 47 prevent.

On the the fluid guide groove 47 opposite side of the O-ring groove 52 has the valve stem 14 one is only along a portion of the outer circumference of the valve stem 14 extending groove 56 on, the end areas of stops 57 . 58 , for one on the valve body 12 arranged, in the groove 56 engaging cones 59 form the one Valve closed position 10 to the attack 57 and in an open position of the valve 10 to the attack 58 strikes. The through the cone 59 and through the groove 56 trained stop arrangement also prevents axial movement of the valve stem due to its exclusively circumferential orientation 14 relative to the valve body 12 ,

The valve described above 10 can for example be connected to a known, not shown in the drawing, heated for evaporation storage tank for a cleaning liquid, the annular channel 36 for supplying vaporous medium with the vapor space of the storage container and the inlet opening 32 for the supply of liquid medium can be connected to a riser plunging into the liquid space of the storage container.

The operation of the first embodiment of the valve according to the invention described above 10 is as follows:
In 3 is the valve 10 shown in a closed position in which the pin 59 at the stop 57 is applied. A flow connection that starts from the ring channel 36 over the connecting channel 42 to the hollow cylinder 26 extends and from there over the nozzle 28 and the fluid guide groove 47 to the outlet duct 24 leads is blocked in this position for the passage of fluid media, since the inlet opening 25 of the outlet duct 24 through the outer surface of the valve stem 14 is covered. In this closed position, the entrance opening 41 of the inlet duct 40 that in the ring channel 36 flows, also through the outer surface of the valve stem 14 covered, so that a supply of liquid medium in the ring channel 36 vaporous medium in this rotary position of the valve spindle 14 omitted.

Around the entrance opening 25 of the outlet duct 24 the steplessly rotatable valve spindle 14 from the in 3 represented closed position in the by the stops 57 and 58 the groove 56 and the cone 59 predetermined direction rotated, the extension section 49 the fluid guide groove 47 with the entrance opening 25 is covered and the free flow cross-section of the inlet opening 25 of the outlet duct 24 is continuously increased when the valve spindle rotates 14 takes a maximum value by about 210 °. This is done by rotating the valve stem 14 the flow rate of the dry steam can be continuously adjusted between 0% and 100% of the maximum volume flow in a setting range from 0 ° to approx. 210 °.

In 4 is the valve 10 shown in its 210 ° position, in the vaporous medium from the ring channel 36 over the connecting channel 42 in the hollow cylinder 26 can flow from where it is then over the nozzle 28 to the fluid guide groove 47 get there, pass it and through the entrance opening 25 into the outlet duct 24 enter and ultimately through the outlet 60 out of the valve 10 can leak. When the valve stem rotates 14 starting from the closed position to a value in the range of 0 ° to approximately 210 °, the entry opening remains 41 of the inlet duct 40 closed, so that no liquid medium the ring channel in this setting range 36 and can thus be supplied to the dry steam. The deepening 43 is below the release section 50 arranged so that the obliquely aligned edge 45 the deepening 43 only then with the entrance opening 41 of the entry channel 40 can come to cover after the entry opening 25 of the outlet duct 24 is fully released.

If you turn the valve stem 14 beyond the 210 ° position towards a 310 ° position ( 5 ), because of the selected groove width of the release section 50 the maximum flow cross section of the inlet opening 25 of the outlet duct 24 maintained, while now that of the deepening 43 covered flow cross-section of the inlet opening 41 continuously expanded until it reaches a maximum value in the 310 ° position. With increasing release of the entrance opening 41 is the ring channel 36 increasingly more liquid medium can be supplied, the flow cross-section of the one opening 25 of the outlet duct 24 remains unchanged at a maximum of 210 ° to 310 °. As a result, an adjustable amount of liquid medium can be supplied to the dry steam in the aforementioned setting range. That about the deepening 43 and the inlet duct 40 in the ring channel 36 liquid medium entering is from the ring channel 36 fed through the connecting channel 42 flowing vaporous medium entrained, which leads to a strong swirling of vaporous and liquid medium and thus to the formation of wet steam. The pin comes in the 310 ° position 59 at the stop 58 to the system so that the valve stem 14 is not rotatable beyond this manipulated variable. In a corresponding manner, the cones come with a reduction in the flow rate 59 in the closed position (0 ° position) of the valve 10 at the stop 57 to the facility.

How the valve works 10 is through the in 6 shown operating diagram particularly clearly. Starting from a 0 ° or closed position, you can turn the valve spindle 14 the flow rate of dry steam can be continuously increased in one direction of rotation. Only when a maximum flow rate of dry steam (210 ° position) has been reached can an increasing amount of liquid medium be added to the dry steam by further turning the valve spindle in the same direction to produce wet steam.

The valve according to the invention is not limited to the operating mode explained above. It can also be provided that the user Starting from a closed position, you can choose whether you only want to increase the discharge of dry steam by rotating the valve spindle in a first direction of rotation, or alternatively, starting from the closed position by rotating the valve spindle in a second direction of rotation at a maximum flow rate of dry steam, the proportion of liquid Medium wants to increase to generate wet steam. It is only necessary to do this in the 1 to 5 valve stem shown 14 by referring to below 7 described valve stem 114 exchange. This differs from the valve stem 14 through a circumferential direction of the fluid guide groove, which is 180 ° apart 47 , Such a configuration of the valve stem 114 has the consequence that the fluid guide groove 47 when the valve spindle rotates 140 counterclockwise from a closed position in relation to the entrance opening 25 continuously expanded and thereby an increasing amount of dry steam can be released. If this direction of rotation is maintained, however, the recess will be reached 43 not in the area of the entrance opening 41 , but when the release section has been positioned 50 at the entrance opening 25 prevents the above-mentioned stop order 56 . 59 a further rotation of the valve spindle in this direction, so that after reaching a maximum flow rate of dry steam, a further rotation of the valve spindle 140 not possible. Will the valve stem 140 however, starting from its closed position rotated in the opposite direction of rotation, ie clockwise, the release section 50 with the entrance opening 25 brought to cover and at the same time the entrance opening 41 of the entry channel 40 increasingly released, so that an increasing proportion of liquid medium can be added to the vaporous medium flowing through the valve with the maximum flow rate to produce wet steam.

The operation of the valve according to this second embodiment is from the in 8th shown operating diagram particularly clearly. Depending on the direction of rotation, the operator can set the release of pure dry steam or wet steam with an increasing proportion of liquid medium starting from a closed position.

In the 9 to 12 A third embodiment of the valve according to the invention is shown and overall with the reference symbol 210 busy. This is largely identical to that set out above with reference to FIG 1 to 6 illustrated first embodiment. The same reference numerals are therefore used for identical components as in FIGS 1 to 6 and with regard to these components, in order to avoid repetition, reference is made in full to the above explanations.

The valve differs from the first embodiment 210 essentially in that a valve stem 214 is used, both around the longitudinal axis 17 rotatable as well as in the direction of the longitudinal axis 17 slidable in the valve housing 12 is held. For this purpose, the groove extends 56 not only in the circumferential direction of the valve stem 214 , but it also has an axial directional component, that is, a component in the direction of the longitudinal axis 17 on so that the two stops 57 and 58 related to the longitudinal axis 17 are staggered. The groove 56 has two differently oriented groove sections, namely a first groove section 62 inside which the groove 56 only in the circumferential direction of the valve spindle 214 runs, and a second groove portion 63 inside which the groove 56 also has an axial directional component.

As with the first and second embodiments explained above, the valve is also immersed 210 in the groove 56 one on the valve body 12 fixed pin 59 on. This acts as a guide body when the valve spindle rotates 214 around the longitudinal axis 17 ensures that the valve stem 214 either only performs a rotary movement, provided the pin 59 in the first groove section 62 immersed, or a rotary movement, which is superimposed on an axial displacement movement, provided the pin 59 in the second groove section 63 dips. The groove 56 thus forms a guide groove, which in combination with the pin forming a guide body 59 a guide link for the valve stem 214 formed.

How especially out 12 the valve stem also shows 214 on their the ring flange 18 of the valve housing 12 end facing a recess 243 on. This forms a step taper of the ring flange 18 facing end area of the valve stem 214 and extends completely around the valve stem in the circumferential direction 214 around. As a result, there is between the inner wall 66 the through hole 20 and the recess 243 at the entrance opening 41 of the entry channel 40 a ring channel 68 trains the valve stem 214 completely surrounds in the circumferential direction.

In the area of the ring flange 18 is in the third embodiment of the valve according to the invention in the stepped recess 34 an elastomeric sealing element 70 used, especially in 10 is shown. It includes an outer ring 71 and an inner ring aligned coaxially with this 72 that have four radially aligned webs 73 are integrally connected. From the inner ring 72 stands in a form-fitting manner in the through hole 20 insertable collar 74 from.

In the in 9 shown closed position of the valve 210 sits at the level of the ring flange 18 arranged end face 76 the valve stem 214 in the collar 74 surrounding area on the inner ring 72 of the sealing element 70 liquid-tight so that in the area of the recess 243 no liquid medium can penetrate. The through hole 20 is rather sealed axially. Starting from this closed position, the valve spindle 214 around the longitudinal axis 17 rotated, there is initially no axial displacement of the valve spindle, that is to say the axial sealing of the through bore 20 remains, and consequently the sealing element can 70 in the area between its outer ring 71 and its inner ring 72 passing and into the connecting channel 42 no liquid medium entering the vaporous medium. Only when the valve spindle rotates further 214 this becomes as soon as the second groove section 63 the cone 59 reached, moved in the axial direction, so that the end face 76 the valve stem 214 from the sealing element 70 lifts off and consequently liquid medium into the recess 243 enter and through the entry channel 40 can be mixed into the vaporous medium.

It has been shown that the axial sealing used in the third embodiment of the valve according to the invention prevents creeping lime deposits when water is used as the liquid medium. In the setting range "dry steam", in which no admixture of liquid water takes place and which is due to the alignment of the groove section 62 at the level of the spigot 59 distinguished, due to the axial seal, no water can enter the through hole 20 and the entry channel 40 penetration. Limescale is therefore not possible. In the "wet steam" setting range, in which an admixture of liquid water is desired and which is achieved by aligning the second groove section 63 at the level of the spigot 59 distinguishes is the face 76 the valve stem 214 due to the rotation of the valve stem 214 forced axial spindle stroke from the sealing element 70 lifted off so that liquid water in the through hole 20 and into the entry channel 40 can occur.

The in the 9 to 12 The illustrated third embodiment of the valve according to the invention can have the mode of operation described using the example of the first embodiment, in which wet steam can only be emitted after a predetermined flow rate of dry steam has been reached. According to the second embodiment, however, an operating mode can also be used in the third embodiment, in which the user can choose, starting from a closed position, whether he should turn the valve spindle 214 only wants to increase the discharge of dry steam in a first direction of rotation, or whether it alternatively starts from the closed position by rotating the valve spindle 214 wants to increase the proportion of liquid medium in a second direction of rotation at maximum flow rate of dry steam to produce wet steam. This requires the fluid guide groove 47 the valve stem 214 corresponding to the fluid guide groove with reference to FIG 7 explained valve stem 114 To design, however, the axial seal through the interaction of the end face 76 with the sealing element 70 remains unaffected by this.

Claims (32)

Valve, in particular for a steam cleaning device, with a first inlet for vaporous medium and a second inlet for liquid medium, which are in flow connection with an outlet for dispensing liquid and vaporous medium, an actuating element being movably held between the inlets and the outlet, characterized in that by means of the adjusting element ( 14 ; 114 ; 214 ) the delivery of either vaporous medium or a mixture of vaporous and liquid medium is adjustable. Valve according to claim 1, characterized in that by means of the adjusting element ( 14 ; 114 ; 214 ) the flow rate of the vaporous medium and the mixture of vaporous and liquid medium is adjustable. Valve according to claim 1 or 2, characterized in that by means of the adjusting element ( 14 ; 114 ; 214 ) the proportion of liquid medium from the outlet ( 60 ) emerging mixture of vaporous and liquid medium is adjustable. Valve according to one of the preceding claims, characterized characterized that the Mixture of vapor and fluid Medium can only be dispensed when the flow rate of the vaporous medium reached a minimum value. Valve according to one of the preceding claims, characterized in that, starting from a closed position of the actuating element ( 14 ) in which neither vaporous medium nor a mixture of vaporous and liquid medium can be dispensed by moving the control element ( 14 ) in a first direction of movement, only vaporous medium with an increasing flow rate can initially be dispensed, and when an intermediate position is exceeded, the mixture of vaporous and liquid medium can be dispensed with an increasing proportion of liquid medium. Valve according to one of claims 1 to 3, characterized in that starting from a closed position of the actuating element ( 114 ) in which neither vaporous medium nor a mixture of vaporous and liquid medium can be dispensed by moving the control element ( 114 ) only vaporous medium with increasing flow rate can be dispensed in a first direction of movement, and that starting from the closed position of the position ( 114 ) by moving the control element ( 114 ) the mixture of vaporous and liquid medium can be dispensed in a second direction of movement with increasing proportion of liquid medium. Valve according to one of the preceding claims, characterized in that the valve ( 10 . 210 ) a first recess ( 47 ) for guiding the vaporous and liquid medium, the flow of the media through the first recess ( 47 ) through the control element ( 14 ; 114 ; 214 ) is changeable. Valve according to claim 7, characterized in that the flow of the media through the first recess ( 47 ) through the control element ( 14 ; 114 ; 214 ) is continuously changeable. Valve according to claim 7 or 8, characterized in that the first recess ( 47 ) in the control element ( 14 ; 114 ; 214 ) is introduced. Valve according to one of the preceding claims, characterized in that the valve ( 10 . 210 ) a second recess ( 43 ; 243 ) for guiding liquid medium to vaporous medium, the flow of the liquid medium through the second recess ( 43 ; 243 ) through the control element ( 14 ; 114 ; 214 ) is changeable. Valve according to claim 10, characterized in that the flow of the liquid medium through the second recess ( 43 ; 243 ) through the control element ( 14 ; 114 ; 214 ) is continuously changeable. Valve according to claim 10 or 11, characterized in that the second recess ( 43 ; 243 ) in the control element ( 14 ; 114 ; 214 ) is introduced. Valve according to one of the preceding claims, characterized in that the adjusting element ( 14 ; 114 ; 214 ) is held rotatably. Valve according to claim 13, characterized in that the adjusting element comprises a rotating spindle ( 14 ; 114 ; 214 ) forms in a valve body ( 16 ) is rotatably mounted, the first and the second recess ( 47 . 43 ; 243 ) in the longitudinal direction of the rotating spindle ( 14 ; 114 ; 214 ) are spaced from each other. Valve according to claim 13, characterized in that the valve body ( 16 ) a through hole ( 20 ) into which the rotating spindle ( 14 ; 114 ; 214 ) and the one inlet ( 32 ) for liquid medium. Valve according to claim 14 or 15, characterized in that the valve body ( 16 ) a ring flange ( 18 ) which forms an inlet for vaporous medium. Valve according to claim 15 or 16, characterized in that in the region of the inlet ( 32 ) for liquid medium facing end of the rotating spindle ( 14 ; 114 ; 214 ) the second recess ( 43 ; 243 ) is arranged, and that the inlet ( 32 ) for liquid medium via the second recess ( 43 ; 243 ) is in flow connection with the inlet for vaporous medium. Valve according to one of claims 10 to 17, characterized in that the second recess ( 43 ) in the circumferential direction of the control element ( 14 ; 114 ) only along a part of the control element ( 14 ; 114 ) extends and that the flow of the liquid medium through the second recess ( 43 ) by rotating the actuator ( 14 ; 114 ) is adjustable. Valve according to one of claims 10 to 17, characterized in that the second recess ( 243 ) in the circumferential direction of the control element ( 214 ) at least along a portion of the control element ( 214 ) extends and into an end face ( 76 ) of the control element ( 214 ) opens out, and that the flow of the liquid medium through the second recess ( 243 ) through axial displacement of the control element ( 214 ) along its longitudinal axis ( 17 ) is adjustable. Valve according to claim 19, characterized in that the valve ( 210 ) a sealing element ( 70 ) to which the end face ( 76 ) of the control element ( 214 ) can be applied liquid-tight. Valve according to one of the preceding claims, characterized in that the adjusting element ( 214 ) both around its longitudinal axis ( 17 ) rotatable as well as in the direction of its longitudinal axis ( 17 ) is held axially displaceable. Valve according to claim 21, characterized in that the flow rate of the mixture of vaporous and liquid medium by rotating the control element ( 214 ) and the proportion of liquid medium in the mixture of vaporous and liquid medium by axial displacement of the control element ( 214 ) are adjustable. Valve according to Claim 21 or 22, characterized in that a rotational movement of the adjusting element ( 214 ) an axial displacement movement can be superimposed. Valve according to claim 21, 22 or 23, characterized characterized in that the valve ( 210 ) a valve body ( 16 ) in which the control element ( 214 ) is held movably, the valve ( 210 ) a guide track ( 56 . 59 ) includes for guiding the control element ( 214 ) inside the valve body ( 16 ). Valve according to one of claims 7 to 24, characterized in that the valve ( 10 ) at least one seal ( 38 . 54 . 55 ) includes to seal the first ( 47 ) and / or second recess ( 43 ). Valve according to claim 25, characterized in that the valve ( 10 ) a groove ( 52 . 53 ) has a seal ( 54 . 55 ). Valve according to claim 26, characterized in that the groove ( 52 . 53 ) in the control element ( 14 ; 114 ) is introduced. Valve according to one of the preceding claims, characterized in that the valve ( 10 ) Attacks ( 57 . 58 ) includes to limit the range of movement of the control element ( 14 ; 114 ). Valve according to claim 28, characterized in that the stops ( 57 . 58 ) of edge areas of a recess ( 56 ) are formed. Valve according to claim 29, characterized in that the recess ( 56 ) in the control element ( 14 ; 114 ) is introduced. Valve according to claim 29 or 30, characterized in that on the valve ( 10 ) a stop element ( 59 ) is arranged, which in the recess ( 56 ) intervenes. Valve according to one of the preceding claims, characterized in that the valve ( 10 ) comprises a shut-off device which, in a first position, connects the flow between the inlets ( 32 ) and the outlet ( 60 ) releases and interrupts the flow connection in a second position.