DE2542663A1 - Valve piston for water tap - with hydrostatic valve piston control operated by internal magnetic coil or hand lever - Google Patents

Abstract

A water tap houses a valve piston which closes the outlet port. The piston is held in the closing position by a compression spring and the water pressure in the control chamber. A magnetic coil inside the valve piston controls the pilot valve with which the water pressure in the control chamber can be reduced. The reduced control pressure allows the main valve to open due to the inlet water pressure. After a set time, the water that flows through a throttle fills the control chamber and establishes pressure balance, thus closing the tap. The valve can be operated by energizing the magnetic coil or by operating the hand lever.

Description

Water outlet fitting

The invention relates to a water outlet fitting with a associated solenoid valve for contactless opening and closing of the water flow path.

Such fittings are used for hygienic reasons in medical In the area and in public sanitary facilities. With the known Versions are direct-acting solenoid valves ia the supply lines to the fittings intended. Such solenoid valves are, however, relatively bulky and expensive and their installation under plaster is very complex.

The invention is based on the object of a water fitting of the initially mentioned to create the type mentioned, with which a substantial reduction in price and simplification the assembly can be achieved, this object is achieved according to the invention in that the solenoid valve as a control valve of a servo valve located in the water flow path is designed and built into the valve housing together with this.

This is in addition to a cheaper and simpler installation ensures that the water flow path through the fitting is also easy in the event of a power failure can be controlled from the edge if appropriate adjusting means are provided will. In addition, the valve can be equipped with a mixer for cold and warm Water can be combined without any significant additional effort is required. In the known designs must for this purpose both in the A solenoid valve each is provided in the cold water as well as in the hot water supply line, which causes a considerable increase in costs and installation work.

A particularly structured arrangement results when according to the invention the magnetic control valve is arranged coaxially to the servo valve and one that Movable closing element of the servo valve centrally enforcing control line monitored. The solenoid of the control valve can expediently be designed in the manner of a piston Closing member of the servo valve sit, and possibly in this closing member be poured.

In another preferred embodiment it is provided that the magnetic coil of the control valve lying coaxially behind the closing element of the servo valve with play moved in a bore in the valve body or in a part inserted therein is in the axial direction under the influence of a closing spring of the servo valve supported on the closing member.

The inventive design of the solenoid valve also allows Provide a mixer for cold and hot water in the valve. This will be proposed that the movable control body of the mixing device is rotatable has a cylindrical jacket mounted in the valve body and a flat bottom, which rests on a flat annular surface of a shoulder fixed to the housing and has holes is provided, which with opening on the annular surface supply channels for the cold and warm water correspond, and that the cylindrical jacket of the control body surrounds at least a part of the closing element of the servo valve, the valve seat of which is formed at the bottom of the control body.

A further increase in the utility value of the valve results themselves, Besides the magnetic control valve, there is a second control valve for the servo valve is provided that can be opened and closed by hand. To this end can the rotatable operating handle of the niche device mounted tiltably and with means be provided to influence the second control valve in the tilted position. Another An advantageous solution is obtained if the control handle of the mixing device has a Push button for actuating the second control valve is slidably mounted.

A particularly simple structure of the valve can be achieved if a single control valve is provided, which is both electromagnetic can be operated directly by hand.

The common control valve can expediently in the jacket of the control chamber be arranged upwardly closing cup-shaped housing part, the bottom of which the solenoid carries. The closing member of the control valve can advantageously be a have upwardly extended plunger on which both the hinged armature of the magnet and also engages a nose of the tiltably mounted pivot lever of the mixing device.

Three exemplary embodiments of the invention are shown in the drawing.

The figures show: FIG. 1 the first exemplary embodiment in section, FIG. 2 shows an enlarged section through the second exemplary embodiment, and FIG. 3 shows a 2 corresponding representation of the third embodiment.

The fitting attached to a wash basin 10 according to FIG. 1 has a Housing 12 with a connecting piece 13 and an outlet nozzle 14. he nozzle 13 contains two one behind the other in the drawing Connecting cables 15 and 16 for the cold and warm water. Both lines lead to a level Annular shoulder 17 of the housing 12, which forms the bottom of a housing bore 18. In this the control body 19 of a mixing device is rotatably mounted on which a hand lever 21 is attached. The control body 19 has a cylindrical jacket 22 and a flat base 23 which rests on the annular shoulder 17 of the housing 12. In the bottom 23 there are two bores 24 and 25 lying one behind the other in the drawing provided, which correspond to the connecting lines 15,16. Through the holes 24 and 25, the inflowing water enters an inlet chamber 26 in the control body 19, depending on its position and the degree of coverage of the corresponding Bores 24.25 with the lines 15.16 a certain mixing ratio of cold and warm water can be set.

An outlet line 29 leads from the inlet chamber 26 into the outlet nozzle 14, which is monitored by a servo valve 30. The servo valve 30 is piston-like Closing member 31 with a valve seat formed on the bottom 23 of the control body 19 cooperates. The closing member 31 is displaceable with play in the jacket 22 of the Control body 19 out. The annular gap 34 between the closing element 31 and the jacket 22 connects the input chamber 26 to a control chamber 35 in which a closing spring 36 of the servo valve 30 is housed.

In the closing member 31 is the solenoid 39 of a magnetic control valve 40 used, which monitors a control line 41.

The axially displaceable armature 42 of the magnet acts directly as a closing element of the control valve 40 and provided with a cone tip for this purpose, which closes the control line 41 when the magnet is not excited. The anchor 42 has a longitudinal channel 43 and the yoke plate 44 covering the solenoid 39 is provided with a bore 45. The control chamber 35 is above the bore 45 and the longitudinal channel 43 with the one around the valve seat of the control valve 40 formed space in connection. The closing spring 36 engages the yoke plate 44 the solenoid 39 and presses this together with the closing member 31 against the valve seat of the servo valve 30.

In addition to the control valve 40, a second control valve 50 is provided, the ene control line 51 is monitored, which through the jacket 22 and the base 23 of the control body 19 of the mixing device running the control chamber 35 with the Outlet line 29 connects. The closing member of the control valve 50 is with a provided upwardly extended plunger 52. The hand lever 21 is non-rotatable, however connected to the control body 19 such that it can be tilted about a bolt 53. The hub 54 of the hand lever 21 is provided on the inside with a nose 55, which over the plunger 52 of the control valve 50 attacks.

The valve described combines a mixing device in a compact design for cold and hot water with a servo valve that can be operated both manually and without contact can be opened and closed via a magnetic control valve. If not Tilted hand lever 21 and non-energized solenoid 39 is in the control chamber 35 the inlet pressure of the prevailing in the inlet chamber 26 via the annular gap 34 Water set so that the servo valve 30 is firmly closed. When excited the solenoid 39 or when the hand lever 21 is tilted, the corresponding control valve opens 40 or 50 and releases the control line 41 or 51, which the control chamber 35 connects to the outlet line 29. The flow resistance in the control line is smaller than in the annular gap 34, so that after opening the control valve 40 or 50 the pressure in the control chamber 35 decreases and the excessive inlet pressure in the Input chamber 26, the servo valve 30 is able to open. After closing the control valve 40 or 50 builds up the full inlet pressure in the control chamber 35 again, the there, in conjunction with the closing spring 36, the servo valve is transferred into the closed position. The temperature of the outflowing water can be adjusted by turning the hand lever 21 the desired value can be set.

The fitting according to FIG. 2 also combines in a compact design a mixing device for cold and hot water with a servo valve 30, which over a magnetic control valve 40 and a manually operated 2-control valve 50 can be influenced is. The control body 19 of the e! Icing device lies here on a control plate 60, which is inserted into the housing 12 of the valve so that it cannot rotate, and inlet bores 61.62 contains. A spring 63 presses the control body 19 against the control plate 60.

The servo valve 30 has a closing member 64 which carries an O-ring 65, which tightly separates the input chamber 26 from the control chamber 35. Axially behind the Closing member 64, the solenoid 39 of the control valve 40 is arranged, which with Game in the cylindrical shell 22 of the control body 19 is performed. This is a Annular gap 66 is formed which connects the end faces of the magnet coil 39 to one another. The solenoid 39 is closed at the top by a yoke plate 44 which has a throttle bore 67 contains and on which the closing spring 36 of the servo valve 30 is supported.

The control line 41 opens into the valve seat of the control valve 40 a bore of the closing member 64, which at its upper mouth of one on Closing member 64 seated Rlngplatte 68 is surrounded. Supports on the ring plate 68 the solenoid 39 is released under the influence of the closing spring 36. The solenoid 39 has a central guide sleeve for an armature 69, which directly connects the closing member of the control valve 40 forms. The guide sleeve of the armature 69 engages in a sealed manner into the bore of the ring plate 68 and thereby seals the interior of the guide sleeve opposite the gap between magnetic coil 39 and annular gap 68 or closing element 64 away. The armature 69 has a blind hole 70 for receiving a closing spring 71, the is supported on the yoke plate 44.

The closing member 64 is provided with an off-center throttle bore 72 which opens into a channel 73 in the closing member 64.

This leads from the upper end face facing the magnetic coil 39.

side of the closing member 64 in its central bore, in which the valve seat of the control valve 40 is formed.

When the control valve 40 is closed, the water pressure is planted in the input chamber 26 via the throttle bore 72, the channel 73 and the annular gap 66 continues into the control chamber 35 so that the servo valve 30 is firmly closed. at When the control valve 4C is open, the pressure above the closing element 64 is reduced, because the water through the throttle bore 72 is not fast enough into the space above of the closing member 64 can flow. The servo valve 30 opens the flow path and keeps this open until the solenoid 39 is de-energized and the control valve 40 closes. The cross section of the throttle bore 67 is much smaller than that Cross section of the annular gap 66, so that the armature 69 is hardly washed by water and contamination of the armature is largely avoided.

The second control valve 50 is in this embodiment via a push button 75 can be operated in the handle of the mixing device, which is designed as a rotary handle 76 is slidably mounted. The push button 75 acts on the closing member of the control valve 50 via a plunger 77 which carries a transverse pin 78. The laterally protruding Ends of the cross pin 78 engage in heart-shaped control cams 79 in the wall of a A sleeve 80, which is mounted in the housing 12 so as to be rotatable to a limited extent, but axially immovable is. The control cams 79 hold the pushbutton 75 in the pressed stelbing firmly, until the purpose of closing the control valve 50 again a pressure on the Button exercised and thereby the locking of the transverse pin 78 in the control cams 79 is repealed.

The control valve 50 and the sleeve 80 are on or in a Ge housing part 82 is provided, which sits on the control body 19 of the niche device and the control chamber 35 encloses. The control valve 50 monitors one of the control chamber 35 to the discharge line 29 leading second control line, which through bores 83, 84 and 85 in the housing part 82, as well as in the jacket 22 and the bottom 23 of the control body 19 is formed.

In the embodiment of FIG. 3, the servo valve 3C has a Closing link 86 attached to a membrane 87 which separates the input channels 26 from the Control chamber 35 separates. In the closing member 86 is a connecting the two chambers 26, 35 Channel 88 is provided in which a throttle body 89 is inserted. The special thing about the construction of Fig. 3 is that both, in the previous examples with the reference numerals 40 and 50 designated control valves to a single control valve 90 are summarized. This is axially parallel to the servo valve 30 in a cup-shaped Housing part 91 housed, which sits on the control body 19 of the mixing device and the control chamber 35 encloses.

On the housing part 91, a magnetic coil 92 is attached, which on a hinged armature 93 acts, the free end 94 of which is forked over a after above extended tappet 95 of the control valve 90 engages. The hand lever 21 for adjustment As in the example according to FIG. 1, the mixing device can be tilted about a bolt 53 stored.

The 30lzen 53 is attached in two parallel cheeks 94, which are integral with the housing part 91.

A shaped piece 95 fits between the cheeks 94 and engages attached to the hub 54 of the hand lever 21 and with a laterally protruding nose 96 is provided. The nose 96 protrudes over the tappet 95 of the StëuerJentils 90.

When the hand lever 21 is tilted from the normal position shown the control valve 90 pushed through the nose 96 and the plunger 95, so that the pressure in the control chamber 35 via bores 83, 84 and 85 against the discharge line 29 can dismantle nin and open the servo valve 30. The same effect occurs when the magnetic coil 92 is energized and the hinged armature 94 via a stop disk 97 push the plunger 95 down.

The valve according to FIG. 3 is distinguished because of the summary of the two control valves to a single valve due to a particularly simple structure the end.

L e r s e i t e

Claims (21)

A n p r e c h e 1. Water outlet fitting with an assigned Solenoid valve for contactless opening and closing of the water flow path, d a d u r c h e k e n n n z e i c h n e t that the solenoid valve is used as a control valve (40) of a servo valve (30) lying in the water flow path and together with this is installed in the valve body (12). 2a fitting according to claim 1, d u r c h g e n n n z e i c hn e t that the movable closing member (31) of the servo valve (30) on the valve seat facing face from the pressure of the incoming water in an entrance chamber (26) and acted upon by the pressure in a control chamber (35) on its other end face is connected to the inlet chamber via a throttle channel (34) and to the outlet line (29) is connected via a control line (41) monitored by the control valve. 3. Fitting according to claim 2, d a d u r C h g e k e n n z e i c hn e t, that the magnetic control valve (40) is arranged coaxially to the servo valve (30) is and one of the movable closing member of the servo valve (30) centrally penetrating Control line (41) monitored. 4. Fitting according to claim 3, d a d u r c h g e k e n n z e i c hn e t that the magnet of the control valve (40) has a plunger (42), which directly acting as a closing element of the control valve (40) with a control line (41) surrounding valve seat on the movable closing member (31) of the servo valve (30) cooperates. 5. Fitting according to claim 4, d a d u r c h g e k e n n z e i c hn e t that the solenoid (39) of the control valve (40) in the piston-like design Closing member (31) of the servo valve is seated with play in a hole in the valve housing or a part (19) inserted therein, the formed thereby Annular gap (34) connects the input chamber (26) with the control chamber (35). 6. Fitting according to claim 5, d a d u r c h g e k e n n z e i c hr e t that the Hagnetsoule (39) in the piston-like locking member made of plastic (31j of the servo valve is cast. 7. Fitting according to claim 4, d a d u r c h g e k e n n z e i c hn e t that the solenoid (39) of the control valve (40) coaxially behind the closing member (64, Fig.2) of the servo valve (30) lying with play in a hole in the valve body respectively. a part (19) inserted therein is guided and in axial Direction under the influence of a closing spring (36) of the servo valve on its closing element (64) is supported, and that between this closing member (64) and the one resting against it Magnetic coil (39) a connecting channel (73) between a throttle bore (72) in the Closing member (64) and the annular gap (66) around the magnetic coil (39) remains free. 8. Fitting according to claim 7, d a d u r c h g e k e n n z e i c hn e t that the connecting channel (73) between the throttle bore (72) and the annular gap (66) opens into a space surrounding the valve seat of the control valve (40). 9. Fitting according to claim 8, d a d u r c h g e k e n n z e i c hn e t that the plunger (69) of the control valve (40) one of its closing spring (71) receiving blind bore (70) and that an end face yoke plate (44) of the magnet coil t39) a throttle bore connecting the control chamber (35) to the blind bore (70) (67). 10. Fitting according to claim 2, d a d u r c h g e k e n n z e i c hn e t that the closing member (86, Fig. 3) of the servo valve (30) on one of the input chamber (26) from the control chamber (35) separating PlembIan (87) sits on one of these two The throttle channel (88) connecting the chambers contains 1 and that the control valve (90) is axially parallel to the servo valve in a wall of the fitting housing surrounding the control chamber (35) or a part (9l) inserted therein is provided. 11. Fitting according to claim 10, d a d u r c h g e k e n n z e i c hn e t that the solenoid (92) of the control valve is outside at the bottom of the control chamber (35) surrounding cup-like housing attachment (91) and the magnet armature (93) is designed as a hinged anchor. 12. Fitting according to one of the preceding claims, d a d u r c h It is not noted that apart from the control valve (40) and the servo valve (30) a mixing device (19, 21) for cold and hot water is provided. 13. Fitting according to claim 12, d a d u r c h g e k e n n z e i c hn e t that the movable control body (15) of the mixing device is rotatable in the Fitting housing (12) mounted cylindrical casing (22) and a flat base (23), which is mounted on a flat annular surface of a shoulder (17 or 60) rests and is provided with bores (24, 25), which are connected to the feed channels (15, 16 resp. 61,62) correspond for the cold and the warm water, and that the cylindrical jacket (22) of the control body (19) at least part of the closing member (31 or 64 or 86) of the servo valve (30) surrounds. its valve seat on the bottom (23) of the control body (19) is formed. 14.Armatur according to claim 13 and one of claims 2 to 6, d a it is indicated that the closing element (31) of the servo valve (30) displaceable with play in the cylindrical jacket (22) of the control body (19) the mixing device is stored. 15. Fitting according to claim 13 and one of claims 7 to 9, d a d u r c h g e k e n n n z e i c h n e t that in the cylindrical jacket (22) of the control body (19) sealed the closing member (64, Fig. 2) of the servo valve and with play the The solenoid coil (39) of the control valve arranged axially behind the closing element is guided are. 16. Fitting according to one of the preceding claims, d a d u r c h It is noted that, in addition to the magnetic control valve (40), a second one Control valve (50) is provided for the servo valve (30), which can be opened by hand and lets close. 17. Fitting according to claim 16 and one of claims 12 to 15, d a d u r c h g e k e n n n z e i c h n e t that the second control line (51) at least to a part in the jacket (22) and in the bottom (23) of the control body (19) of the mixing device runs 18. Fitting according to claims 12 and 16 or 17, d a d u r c h g e k It is noted that the rotatable operating handle (21) of the sewing device mounted tiltably and with means (55) for influencing the second control valve (50) is provided in the tilt position. 19. Fitting according to claims 12 and 16 or 17, d a d u r c h g e k e n n n n z e i c h n e t that in the operating handle (76, FIG. 2) of the mixing device a push button (75) for actuating the second control valve (50) is displaceable is stored. 20. Fitting according to claim 16 or 17, d a d u r c h g e k e n nz e i c h n e t that a single control valve (90, Fig. 3) is provided that both can be operated electromagnetically as well as directly by hand. 21. Fitting according to claim 20, d a d u r c h g e k e n nz e 1 c h n e t that the common control valve (90) in the jacket of the control chamber (35) after the outside closing cup-shaped housing part (9l) is arranged, the bottom of which the solenoid (92) carries, and that the closing member of the control valve one after has extended plunger (95) at the top, on which both the hinged armature (94) of the magnet as well as a nose (96) of the tiltably mounted pivot lever (21) of the mixing device attacks.