• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a valve for hot water systems according to claim 1 with a cold water and a hot water inlet, with which the temperature of the leading into the water line to the consumer hot water is designed switchable between at least two temperature ranges.
    公开号:AT512141A1
    申请号:T16722011
    申请日:2011-11-11
    公开日:2013-05-15
    发明作者:Herbert Wimberger
    申请人:Wimtec Elektronische Steuerungs Und Messgeraete Gmbh;
    IPC主号:
    专利说明:

    1 «· · · · · · · · · · · · · · · · · · · ·
    The invention relates to 'e'in'Ventil door' hot water systems according to claim 1 with a cold water and a hot water inlet, with which the temperature of the water pipe leading to the consumer hot water is designed switchable between at least two temperature ranges.
    In GB2348945 is described that to reduce the microbiological growth, in particular the increase of Legionella, in hot water systems usually a temperature of the hot water of at least 60 ° C must be adhered to, so that even at the sampling point still a temperature of at least 50 ° C is reached. To protect against scalding is required in particular for facilities for children and the elderly, that at the water delivery points a certain maximum temperature, for example in the range of 43 to 44 ° C, must not be exceeded.
    DE3838476 discloses a method of operating a storage water heater. When removing the hot water, which has been heated to high temperatures, cold mixed water is added directly to the storage outlet, thus avoiding the risk of scalding at the tap points.
    The AT010563U describes a procedure for the possible destruction of pathogenic pathogens. At regular intervals, the temperature of the hot water is raised to over 60 ° C to perform a regular operation. To protect against scalding, a sensor is provided which initiates the termination of thermal disinfection upon detection of a person and thus precludes scalding of the user.
    From DE3838046 a method is known in which the temperature at the water outlet devices is measured during the thermal disinfection and thus the release and / or blocking of the device for the user is controlled.
    The limitation to a maximum temperature of, for example, 42 ° C can be ensured with water dispensing fittings with an integrated thermostatic mixer. A disadvantage of this solution is that for thermal disinfection each water dispensing fitting must be opened and the thermostatic mixer must be bridged.
    In DE102004014126 a fitting is described, in which a bypass is provided with a solenoid valve, through which the water can be passed bypassing the mixing device.
    DE10156224 discloses a device for the thermal disinfection of a sanitary fitting. The device includes a solenoid valve, which leads the hot water, bypassing the mixing device and the extraction valve in the mixed water pipe. The device comprises a temperature sensor, with which a control device monitors the hot water serving for the disinfection.
    From EP0390121 a valve is known which reliably ensures compliance with a maximum temperature of the water leading to the consumer with a thermostat. The disadvantage of this solution is that this valve must be bridged for thermal disinfection.
    In US2010 / 0147963 a valve is described in which a cold water bypass in case of hot water failure of the cold water flow is directed into the hot water outlet leading to the consumer. As a result, the water supply of the consumer is ensured even with hot water failure.
    WO2008 / 116242 discloses an apparatus and a method for controlling the water temperature at at least one water outlet. A cold water and a hot water input are routed to a safety mixing valve, the output of which flows into the hot water outlet leading to the consumer. For thermal disinfection, a bypass valve is provided, which leads the water from the hot water inlet, bypassing the safety mixing valve, directly into the consumer hot water outlet.
    A disadvantage of all existing solutions is that the self-forming Legionella in the thermostat can not be killed, since the more than 60 ° C having rinse water to kill the Legionella at 4 ψ * · ψ »· ι» * · ι ··· * * * «* Ft · · · ft" · "thermal disinfection is the result of the thermostat * * rt *.
    In the case of unfavorable on-site installation, the temperature in a cold water line may rise to temperatures conducive to germ growth. Reasons for this can be, for example, the heat transfer from a hot water pipe, a heating system or the action of solar radiation. A disadvantage of the existing solutions is also that a thermal disinfection of the cold water pipe is not provided.
    The aim of the invention is therefore a valve according to the preamble of claim 1, which regulates the temperature in the hot water outlet leading to the consumer to a temperature range and switches on activation of a control line, the temperature leading to the consumer hot water outlet to at least one further temperature range.
    This is achieved in the device of the type mentioned in that the inflowing cold water and the inflowing hot water are brought to a mixing valve. In the outgoing to the consumer hot water pipe, a temperature element is provided. A control unit monitors the output of the temperature element and regulates the position of the mixing valve so that in normal operation, the maximum temperature of 42 ° C, for example, is not exceeded. The control unit has a control line for carrying out the thermal operation
    Disinfection. When active! StefcdKEeittinSg the control unit controls the mixing valve in a position that during the thermal disinfection a minimum temperature of, for example, 70 ° C is not exceeded. The temperature element can be designed as a temperature switch or temperature sensor.
    In a particular embodiment of the invention, the control unit has a further control line for flushing the leading to consumption hot water pipe with cold water. This allows a rinsing of possibly in the line depositing foreign bodies, dirt and suspended matter with cold water and saves in this case the cost of heating the otherwise hot water to be used.
    In an alternative embodiment, the control unit has at least one further control line, with which at least one further maximum temperature, for example 38 ° C., can be set. As a result, the maximum hot water temperature can be lowered at certain times, thus saving energy for hot water preparation.
    The invention will be explained in more detail with reference to embodiments according to the drawings, wherein
    Fig.l a valve for hot water systems,
    2 shows the temperature profile in one
    Hot water system during a thermal disinfection, 6
    Fig. 3 is a block diagram of a sanitary system with a valve according to FIG. 4 shows a block diagram for a sanitary system with a valve according to FIG. 1 for the thermal disinfection of the cold and hot water outlet, FIG. 4a the signal curve of the control lines of the valve for thermal disinfection of the hot water outlet, FIG. 4b the signal course of the control lines of FIG 5 shows a hot water supply in a building with central hot water supply and valves according to Fig.l, Figure 6a, b, an embodiment of a mixing valve for a valve for hot water systems according to Fig.l, Fig. 7 shows an alternative embodiment a mixing valve for a valve for hot water systems according to Fig.l represents.
    Fig.l shows a valve for hot water systems 1. The inflowing through the cold water inlet 5 cold water KW and flowing through the hot water inlet 4 7 ♦ «·· ·« · tt «
    Hot water WW is freed in the Mi Jettveil ttta: 2 and discharged via * ♦ ··· ·· «·« * «to the consumer's hot water outlet 6. The control unit 3 detects a arranged in the hot water outlet 6 temperature element 9, the temperature of the discharged hot water WW 'and regulates the position of the mixing valve 2 so that in normal operation in the hot water outlet 6, a temperature of 42 ° C is not exceeded. If the temperature rises in the hot water outlet 6, the control unit 3 controls the mixing valve 2 in the direction of cold position; If the temperature in the hot water outlet 6 decreases, the control unit 3 controls the mixing valve 2 in the direction of the hot position. Increases because of a cold water failure, the temperature in the hot water outlet 6 on, the control unit 3 controls the mixing valve 2 in the cold position and thus blocks the flow of hot water from the hot water inlet 4 from. This prevents possible overheating of the consumer and / or scalding of the user. If the control line 7 is activated, the control unit 3 regulates the position of the mixing valve so that a temperature of 70 ° C is not exceeded for the thermal disinfection in the hot water outlet 6.
    In a further embodiment, the valve for hot water systems 1 via a sum fault indicator 7b. The control unit 3 activates the sum fault indicator 7b, if the required temperature in the hot water outlet 6 can not be met. 8 4 ^ 4 «44 444 ·
    In a particularly vortieillriafie * üi'Ausführung the valve for hot water systems 1 comprises a flow switch 8a in the hot water inlet 4. Detects the control unit 3 via the flow switch 8a the failure of the hot water supply, the control unit 3 controls the position of the mixing valve 2 so that cold water into the hot water outlet 6 is headed. Thus, in contrast to conventional thermostats ensures that even in case of hot water failure, a water release.
    As a result, a valve for hot water systems 1 according to this type of construction is also suitable for use as a safety mixing valve, for example for eye showers.
    In a further embodiment, the valve for hot water systems 1 via a further control line 7a. If the further control line 7a is activated, the control unit 3 regulates the position of the mixing valve 2 in such a way that only cold water KW flowing in from the cold water inlet 5 flows into the hot water outlet 6 leading to the consumer. This allows flushing of possibly in the hot water system of the consumer depositing foreign bodies, dirt and suspended matter with cold water and saves in this case the cost of heating the otherwise hot water to be used.
    In a particularly advantageous embodiment, the control unit 3 with the flow meter 8 continuously detects the amount of water passing through the hot water outlet 6 to the consumer. The control unit calculates from the What: §, £ rr $$ rv $, e * jinff. « te !: With the temperature element 9 detected water temperature of the discharged hot water WW 'the amount of heat emitted and reports this by radio to a building control system, not shown on. The flow meter 8 is constructed as a rotating turbine with a coupled generator which supplies electrical energy when water is released. At the mixing valve 2, a Seebeck generator 2a is further attached. Due to the temperature difference between cold and hot water electric power is generated in the Seebeck generator 2a, which covers the standby energy consumption at times without water delivery. As a result, a valve for hot water systems 1 according to this type is energy self-sufficient and can be operated without power.
    The temperature element 9 is designed as a PTC thermistor. In alternative embodiments, the temperature element 9 is designed as NTC thermal conductor, thermocouple, Pt100, Pt100 or thermopile.
    In a further embodiment, the valve for hot water systems 1 comprises a power supply, which is designed as at least one power supply, at least one battery, at least one battery or at least one fuel cell.
    In a particular embodiment, the valve for hot water systems 1 comprises at least one turbine in the hot water outlet 6, in the hot water inlet 5, in the cold water inlet 4, and / or at least one Seebeck generator 2a, and / or at least one solar cell for the 10th
    Power generation. This Idfesi valve for hot water systems 1 ensures energy self-sufficient operation.
    2 shows the temperature profile in a hot water system before and during a thermal disinfection. Characteristic 14 shows the temperature at the hot water inlet 4 (Fig.l) before the thermal disinfection. The control unit 3 {Fig.l) controls the position of the mixing valve 2 (Fig.l) so that the temperature in the hot water outlet 6 (Fig.l) does not fall below the lower limit 17b 'of the first temperature range 17c' of 35 ° C and the upper limit value 17a 'of the first temperature range 17c' does not exceed 42 ° C.
    Characteristic 16 shows the temperature profile at the hot water inlet 4 {Fig.l) during a thermal disinfection in systems with a bypass. At the beginning of the thermal disinfection tl, the thermostat is bypassed with the bypass. For thermal disinfection, only water from the hot water system is used, the temperature of which continuously drops and falls below 70 ° C at time t2. Characteristic 15 shows the temperature profile at the hot water inlet 4 (Fig.l) during a thermal disinfection when using a valve according to Fig.l, curve 17 shows the temperature profile at the consumer leading hot water outlet 6 {Fig.l). By changing the electrical level 13 of the control line 7 (Figure 1), the thermal disinfection is activated and the 11
    Control unit 3 (Fig.l) irdgältlctefe Mifchchventil 2 {Fig.l) so that the temperature of the discharged through the hot water outlet 6 (Fig.l) hot water WW '(Fig.l) the lower limit value 17b at least one further temperature range 17c of 70 ° C and does not exceed the upper limit value 17a of at least one further temperature range 17c of 72 ° C., whereby depending on the temperature of the hot water WW (FIG. 1) flowing through the hot water inlet 4 (FIG. 1) from the cold water inlet 5 (FIG. Fig.l) inflowing cold water KW (Figure 1) is admixed. The temperature of the hot water WW '(FIG. 1) flowing out of the hot water outlet 6 (FIG. 1) remains constant and the characteristic curve 15 decreases more slowly in comparison with the characteristic curve 16. At the time t3 of the lower limit value 17b of the at least one further temperature range 17c, the control unit 3 (FIG. 1) activates the sum fault indicator 7b (FIG. The time t3 is on the time axis after t2 and so can be thermally disinfected for the same storage volume in the hot water system longer than in systems with bypass.
    In a particularly advantageous embodiment, the control unit 3 (FIG. 1) activates the summation fault indicator 7b (FIG. 1) as soon as the temperature of the discharged hot water WW '(FIG. 1) is outside the limit values (17a, 17a', 17b, 17b '). at least one of the temperature ranges (17c, 17c ') is located. 12
    3 shows a block valve according to FIG. 1 with the removal points 11, 11a, 11b, 11n. The hot water inlet 4 is designed as a circulation system with the return 4a for the circulation Z. The control unit 3 detects with the temperature element 9a, the temperature of the incoming cold water inlet 5 cold water KW and the temperature element 9b, the temperature of flowing into the hot water inlet 4 hot water WW, determines therefrom an approximate target position of the mixing valve 2 and corrects the deviation with a PID Algorithm based on the detected with the temperature element 9 in the consumer hot water outlet 6 detected temperature of the discharged hot water WWr. As a result, a valve of this type reacts very quickly to fluctuations in the water temperatures of the inflowing hot water WW and the incoming cold water KW. The backflow preventer 10 and 10a prevent possible cross and return flows. The control unit 3 transmits via at least one control line 7c the amount of heat emitted and status messages to a building control system, not shown. The building management system transmits via the at least one control line 7c to the control unit 3 the temperature ranges 17c (FIG. 2), 17c '(FIG. 2) to be maintained, the limit values 17a (FIG. 2), 17a' (FIG. 2), 17b (FIG. 2), 17b '(Fig. 2) of the temperature ranges 17c (Fig. 2), 17c' (Fig. 2), the commands for starting and stopping the thermal disinfection and supplies the valve: J ^ g # We4rWi / aste & l r over the at least one control line 7c with electrical energy. The at least one control line 7c is designed as a KNX bus line. As a result, the control line 7 {Fig.l), the further control line 7a (Fig.l), the sum error indicator 7b (Fig.l) and the Seebeck generator 2a (Fig.l) omitted. The flow meter 8 is designed as a low-cost sensor with impeller. In alternative embodiments, the at least one control line 7c is embodied as an Ethernet line, Profibus line, Modbus line, LON bus line, LCN bus line, Nikobus bus line or CAN bus line.
    In a particularly advantageous embodiment, the control unit 3 recognizes the failure of the hot water supply by a changed temperature profile, the detect the temperature elements 9,9a, 9b. The flow monitor 8a (Fig.l) can be omitted in this case.
    In an alternative embodiment, the valve for hot water systems 1 comprises a flow meter 8b in the hot water inlet 4 and a flow meter 8c in the cold water inlet 5 for detecting the amount of water flowing through in the respective branch. The control unit 3 transmits the amount of heat, as well as the temperature and amount of the discharged hot water WW ', the inflowing hot water WW and the incoming cold water KW and / or status messages on the 14 ·· · * t · · · · «* · # · · · · · · · · T · t · · · ·
    Control line 7c and / or supply unit for the building control system.
    4 shows a block diagram with two valves for hot water systems 1,1a according to Fig.l. In normal operation, the control line 7 (Fig.l) and the further control line 7a (Fig.l) are disabled in the valve for hot water systems 1. The control unit of the valve for hot water systems 1 controls the position of the mixing valve so that the temperature of the inflowing hot water WW and the incoming cold water KW mixed and discharged hot water WW 'in the leading consumer hot water outlet 6 does not exceed a temperature of 42 ° C. The hot water outlet 6 (Fig.l) of the valve for hot water la leads in the leading to the consumer cold water outlet 12. In the valve for hot water la systems the control line 7 (Fig.l) is deactivated and the further control line 7a (Fig.l) activated. The control unit of the valve for hot water systems la regulates the position of the mixing valve so that from the consumer out leading cold water outlet 12 discharged cold water KW 'flows.
    4a relates to the signal curve of the control lines 7, 7a of the valve for hot water systems 1 for the hot water outlet 6. In normal operation, the level 13 of the control line 7 and the level 13a of the further control line 7a to 0 volts. The control unit 3 of the valve for hot water systems 1 15 4 ····················· regulates the position of; ^ sbh ^ err * il: s: 2: so that in the zum
    * 4 ··· ··· · · Μ M
    Consumer out leading hot water outlet 6 a temperature of 42 ° C is not exceeded. At the time t 1, the thermal disinfection is started by changing the level 13 of the control line 7 to 5 volts. The control unit 3 of the valve for hot water systems 1 controls the position of the mixing valve 2 so that in the leading to the consumer hot water outlet 6 a temperature of 70 ° C is not exceeded. At time t2, the thermal disinfection is terminated by a change in the level 13 of the control line 7 to 0 volts and the control unit 3 switches back to normal operation.
    FIG. 4b relates to FIG. 4 and shows the signal course of the control lines 7, 7a of the valve for hot water systems 1a for the cold water outlet 12. In normal operation, the level 13 of the control line 7 is at 0 volts and the level 13a of the further control line 7a is at 5 Volt. The control unit 3 of the valve for hot water systems la regulates the position of the mixing valve 2 so that only cold water flows from the leading to the consumer cold water outlet 12. At the time t 1, the thermal disinfection is started by changing the level 13 a of the further control line 7 a to 0 volts and the level 13 of the control line 7 to 5 volts. The control unit 3 of the valve for hot water systems la regulates the position of the mixing valve 2 so that in the leading to the consumer cold water outlet 12, a temperature of 70 ° C is not exceeded. At time t2, a change of the level js is made by 16 to 13 * 0 ·······································································.
    Volt and the level 13a of the other control line 7a to 5 volts thermal disinfection ended and the control unit 3 switches back to normal operation.
    5 shows a hot water supply in a building with central hot water supply with the units El, E2, E3 ... En with the valves for hot water systems VWA1, VWA2, VWA3 ... VWAn according to Fig.l. The units El, E2, E3 ... En are sanitary groups. In alternative embodiments, the units El, E2, E3 ... En sanitary rooms, nursing, care, home or hotel rooms, apartments or building tracts. In a further embodiment variant, the units El, E2, E3 ... En are a mix of sanitary groups,
    Sanitary rooms, nursing, care, home, hotel rooms, apartments and / or building wings.
    The structure of the units El, E2, E3 ... En is explained by way of example on the unit El. The unit El has a valve for hot water systems 1 with a hot water inlet 4 supplied with hot water WW, a cold water inlet 5 supplied with cold water KW and a hot water outlet leading to the consumer 6.
    Each of the units El, E2, E3 ... En is thermally disinfected individually and independently of the other units El, E2, E3 ... En. During thermal disinfection of one unit El, E2, E3 ... En, the other units El, E2, E3 ... En remain in normal operation. For thermal disinfection, only the unit which is to be disinfected at 17 »t ·» »· · · · · · · · · · · · · · · · ··· Ξ1, Ε2; Ε ^ ί *. .33i be locked for use.
    6a shows an embodiment of a mixing valve 2 according to Fig.l for a valve for hot water L (Fig.l). The mixing valve 2 comprises the valve body 20, here brass, the hot water inlet 21 for inflowing hot water WW, the cold water inlet 22 for incoming cold water KW and the mixing chamber 24 with the hot water outlet 23 for the discharged hot water WW 'to the consumer. The position of the blade 28 rotatably mounted about the axis 28 determines the mixing ratio of the inflowing hot water WW and the inflowing cold water KW. The blade 27 is sealingly formed with respect to the inner wall 25 of the mixing chamber 24. In the position 29a with the stops 26a, c for the blade 27, the inflow of hot water WW is shut off and it flows exclusively cold water KW through the hot water outlet 23. In the position 29b with the stops 26b, d for the blade 27 is the inflow of Cold water KW shut off and it flows exclusively hot water WW through the hot water outlet 23.
    Fig.b shows the mixing valve 2 of Figure 6a with the coupled via the axis 28 actuator 30, which is designed here as an electric motor with gear. The valve body 20 is formed as an injection molded part made of plastic. In an alternative embodiment, the electric motor is a stepper motor. 18 9 «· t * ··
    · · · ··· ·· V
    FIG. 7 shows an alternative embodiment of a mixing valve 2 according to FIG. 1 for a valve for hot water system 1. The mixing valve 2 comprises the valve body 20, the hot water inlet 21 for inflowing hot water WW, the cold water inlet 22 for inflowing cold water KW and the mixing chamber 24 with the hot water outlet 23 for the discharged hot water WW 'to the consumer. The electric motor 31 forms with the over the thread 39 vertically adjustable adjusting bolt 32 the actuator for the inflowing hot water WW, wherein the stroke Hl between the stopper 34 and the seal 33 determines the flow rate of the hot water flowing through WW in the direction of mixing chamber 24. On the cold water side of the electric motor 35 forms with the adjustable over the thread 40 adjusting bolt 36 the actuator for the incoming cold water KW, the stroke H2 between the stop 38 and the seal 37 determines the flow rate of the flowing cold water KW towards the mixing chamber 24. In the illustrated position for the stroke Hl and the stroke H2 results in a mixing ratio for the discharged hot water WW 'of about 70% hot water WW and 30% cold water KW.
    权利要求:
    Claims (10)
    [1]
    19 ··························································

    1. A valve for hot water systems (1) with a cold water (5) and a hot water inlet (4), a water outlet leading to the consumer (6), a mixing valve (2), at least one temperature element (9, 9a, 9b), a control unit (3), at least one control line {7, 7a, 7c) and at least two temperature ranges (17c, 17c ') which regulate the temperature in the water outlet (6) leading to the consumer within the limit values (17a', 17b ') of a first temperature range (17c'), characterized in that the control unit (3) activates at least one of the control lines (7, 7a, 7c) the temperature in the water outlet leading to the consumer (6) to at least one further temperature range ( 17c) switches over with the limit values (17a, 17b).
    [2]
    2. Valve for hot water systems (1) according to claim 1, characterized in that the control unit (3) is designed as an electronic control unit.
    [3]
    3. Valve for hot water systems (1) according to claim 1 or 2, characterized in that the control unit (3) a sum fault indicator (7b) when exceeding and / or falling below at least one limit value for the temperature in the hot water outlet (6).
    [4]
    4. valve for hot water systems (1) according to one of claims 1 to 3, characterized in that at least one limit value (17a, 17a ', 17b, 17b') at least 20 of a temperature range tl7 <t, * l! C ':) by means of which at least one control line (7c) is designed to be adjustable.
    [5]
    5. valve for hot water systems (1) according to one of claims 1 to 4, characterized in that the control unit (3) the temperature in the cold water inlet (4) with a temperature element (9a) and / or in the hot water inlet (5) with a temperature element ( 9b).
    [6]
    6. Valve for hot water systems (1) according to one of claims 1 to 5, characterized in that in case of failure of the hot water supply only from the cold water inlet (5) inflowing cold water (KW) in the leading to the consumer hot water outlet (6) flows.
    [7]
    7. valve for hot water systems (1) according to one of claims 1 to 6, characterized in that the control unit (3) the amount of heat, the temperature and amount of discharged hot water (WW '), the incoming hot water (WW), the incoming cold water (KW) and / or status messages via at least one control line (7c) and / or transmitted by radio to a building management system.
    [8]
    8. Valve for hot water systems (1) according to one of claims 1 to 7, characterized in that the valve for hot water systems (1) comprises a power supply, as at least one power supply, at least one battery, at least one battery, at least one 21 ♦ · · ♦ Μ ♦ · · · · · Fuel cell, and / odSei; niinfJe benss: ej * ne control line ·· »·· * ·« · «· ·· (7c) is executed.
    [9]
    9. valve for hot water systems (1) according to one of claims 1 to 8, characterized in that the valve for hot water systems (1) at least one turbine in the hot water outlet (6), in the hot water inlet (5), in the cold water inlet (4), and / or at least one Seebeck generator (2a), and / or at least one solar cell for generating energy.
    [10]
    10. Valve for hot water systems (1) according to one of claims 1 to 9, characterized in that when activating at least one of the control lines (7 a, 7 c) only inflowing cold water (KW) flows into the hot water outlet 6.
    类似技术:
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    同族专利:
    公开号 | 公开日
    AT512141B1|2013-07-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP0361333A1|1988-09-27|1990-04-04|Kwc Ag|Water turbine, particularly for use in domestic commodities|
    JP2003207147A|2002-01-10|2003-07-25|Rinnai Corp|Combination unit|
    DE102005038406A1|2005-08-12|2007-02-15|Markus Labuhn|Process to supply hot water for washing purposes by monitoring discharge temperature at user points|
    DE102009030534A1|2009-06-24|2010-12-30|Ruß, Heinz-Dieter|System for operating electrically controllable water supply plant that is installed as e.g. shower facility in gym, has control device whose input is connected to measuring device, where temperature values are transmitted to control device|DE102014104389A1|2013-04-05|2014-10-09|Herbert Wimberger|Sanitary fitting with heat meter|
    DE102014104395A1|2013-04-05|2014-10-09|Herbert Wimberger|plumbing fixture|
    DE102014104392A1|2013-04-05|2014-10-09|Herbert Wimberger|Sanitary fitting with remote release|
    DE202018003798U1|2018-08-16|2019-11-24|Gebr. Kemper Gmbh + Co. Kg Metallwerke|Flushing device with generator|
    法律状态:
    2017-07-15| MM01| Lapse because of not paying annual fees|Effective date: 20161111 |
    优先权:
    申请号 | 申请日 | 专利标题
    AT16722011A|AT512141B1|2011-11-11|2011-11-11|VALVE FOR HOT WATER SYSTEMS|AT16722011A| AT512141B1|2011-11-11|2011-11-11|VALVE FOR HOT WATER SYSTEMS|
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