DE3012399C2 - - Google Patents

Description

The invention relates to a security locking device for Tap water systems, with the purpose of preventing Tap water due to broken pipe or forgotten advised open taps over a long period of time runs and noticeable water loss and water damage Household items, building and the like. Such tap water Damage is among the worst damage to household items and accrue on apartments; they often lead to very high ones Amounts of damage, especially if they are single family homes and affect weekend homes that don't last for several days are inhabited and not observed.

Pipe breaks usually arise from freezing the pipe water, less often due to material and construction errors, sometimes however by mechanical action, e.g. B. in construction work. A pipe break has the consequence that the pipe water runs out in a steady stream. The same thing takes place when a consumer taps into water and then Forgets to close the tap again - certainly that Cause of most tap water damage.

The invention takes advantage of the fact that the water flow both in the event of pipe breaks or forgotten open taps  runs evenly. According to an older proposal (patent registration P 28 05 908.7) is a switching valve and a check valve valve known in a between the main water supply device and tap water system arranged pressure housing are built. Operated by the pressure drop in the pressure housing, the on every opening of each nozzle of the pipe system takes place, the switching valve switches to a predetermined one Time period set short-term timer started, which after the set period and at continued even flow of water the closure a shut-off valve that shuts off the entire line system solves. The water flow remains within the predetermined Time period not the same, d. H. another tap will be opened, switches the resulting pressure change in the Pressure housing reset the timer to zero. So that runs another same period of time. Conversely, a tap valve closed, the water flow slows down and the Pressure increases; the timer is by the printer elevation set to zero.

This mechanical device solves the underlying problem by perfect, but is quite complex to manufacture. The lock valve and the switching valve must be with small tolerances be produced so that even slight changes in pressure (Lei water system with many taps) can be registered. Lime and rust deposits as well as alluvial substances can Question the effectiveness of the locking device; especially which must be in a tap water network with calcareous water therefore the control device should be checked more often.

According to DE-AS 23 10 932 is also a clockwork drive for one operated depending on an adjustable time period cash valve known. This device is suitable for tax purposes a limited flow of a liquid through a pipeline and is particularly suitable for the Operation of lawn and garden sprinklers. Because the flow through  the relevant pipeline in terms of its duration is already fixed in advance and one Control of the relevant valve depending on the through flow itself or any changes in the strength of the Flow is not provided, the remains known te device on use on water pipes limited, their flow for a certain period is to be set, e.g. B. the aforementioned Gar tensile systems.

The present invention is based on the object a safety locking device according to the preamble of claim 1 with simpler and not complex technical means especially with regard to maintenance effort and improve functional reliability.

The solution to this problem is achieved in that the changes in the what actuates the timer flow rate of two from temperature dependent dependent resistors existing sensors which are in a row in the water pipe ordered and connected to a measuring bridge, whereby seen in the direction of flow of tap water front sensor by means of a heater located in it elements undergoes heating, while those in the Measuring bridge for temperature changes on the sensors resulting measuring impulses over one of the measuring bridges switched amplifier relay the timer in Set gear, which after a predetermined time span a solenoid valve operated.

In a further embodiment of the invention the timer is activated simultaneously with the bet the shut-off valve in the starting position  Reset (zero position) (claim 2); to reset the timer to the off position gear position (zero position) can be a separate one Pressure switch can be provided (claim 3).

According to a preferred embodiment of the inven tion are the sensors according to the teaching of the claim 4 in one connected to the water pipe Bypass arranged.

So that any actuation of the magnetic lock valve is also visually recognizable, ent speaking the proposal according to claim 5 Solenoid check valve of a signal lamp in parallel be switched.  

An execution is based on the drawings illustrated and explained example of the invention. It shows

Fig. 1 shows a safety locking device in a front view, with the cover removed, the intermediate water pipe section and the bypass, partly in section,

Fig. 2 is an enlarged view of the by-pass filter Fig. 1 in a longitudinal section;

Fig. 3 shows the longitudinal section XX of the bypass Fig. 2 and

Fig. 4 is a schematic representation of the control device with Steuereinrich lines, signal light and switch.

The reference numerals shown in the figures be interpret:

• 1 the housing of the safety locking device
  2 Water intermediate pipe section of the safety locking device
  3, 4 pipe sockets
  5 main water pipe
  6 Bypass on the water intermediate pipe 2
  7, 8 sensors
  • 71, 81 resistance parts of sensors 7, 8
    72, 73, 82, 83 insulating parts of the sensors
    74, 84 insulating film of the resistance parts
    74, 85 insulating pieces for the insertion of the sensor lines 9, 10, 22, 23
• 9, 10 sensor lines sensor control element 11
  11 tax body
  12 measuring bridge located in the control member 11
  13, 14 relay lines measuring bridge relay
  15 amplifier relays
  16, 17 display lines relay timer 18
  18 timer
  19 voltage transformers
  20, 21 high voltage poles (power grid)
  22 Line voltage converter 19 - sensor lines 9 also drive line timer 18
  23 Line voltage converter 19 - measuring bridge 12 - sensor lines 10 also drive line timer 18
  24 heating element in sensor 7
  25 second relay
  26 Low power line relay 25 - short time knife 18
  27 Power line relay 25 - solenoid valve 28
  28 solenoid valve
  29 signal lamp
  30 timer switch

The arranged in a housing 1 water intermediate pipe piece 2 is turned on pipe sleeves 3, 4 in a water pipe 5 , conveniently right behind the water meter (not shown). At the water intermediate pipe piece 2 , a bypass 6 is welded, through which a part of the water flow is branched off. In the by pass 6 there are two sensors 7, 8 , which are fastened in the middle of the tube cross-section and are composed of a central resistance part 71, 81 and two flanking flanks 72 and 73, 82, 83 which are adjacent to the bypass wall. Each resistance part 71, 81 consists of a temperature-sensitive semiconductor, a so-called thermistor, which can be encased in a thin insulating film 74, 78 . Such an insulating film is only necessary if the thermistor material is sensitive to water. The insulating parts 72, 73, 82, 83 are made of plastic. The thermistors 71, 81 can consist of copper oxydul or silicon alloys and also contain aluminum. The thermistor parts (resistance parts) 71, 81 are shown for reasons of clarity on Fig. 2 and 3 as a solid body. Since thermistor material is not very cheap, it may be expedient to design the thermistor body as a hollow body, the front thermistor body 71 having to be filled with a thermally conductive filler (not drawn).

Each sensor 7, 8 is connected via sensor lines 9, 10 to egg nem control member 11 , in which the sensor lines 9, 10 to a measuring bridge 12 and relay lines 13, 14 are connected to a relay 15 . From the relay 15 leading display lines 16, 17 to egg nem timer 18 , the display line 17 being connected to the plus pole of a voltage converter. The voltage converter 19 converts high current 220 V from the power network 20, 21 into low current 4 or 6 V. From the voltage converter 19 , a line 22 leads to the sensor lines 10 of the sensors 7, 8 . The sensor lines 9 are connected from the measuring bridge 12 via the line 23 to the positive pole of the voltage converter 18 . The two low-voltage lines 22, 23 lead further to a heating element 24 located in the front sensor 7 seen in the flow direction.

The high-voltage poles 19, 20 are connected to a second relay 25 , from which a low-current line 26 leads to the short-time meter 18 . The relay 25 is connected via a power line 27 to a magnetic shutoff valve 28 arranged on the water pipe section 4 ; the second pole 21 of the power network 20, 21 is directly connected to the magnetic shutoff valve 28 . Finally, a signal lamp 29 is arranged on the power line 20 , which is also connected to the negative pole of the relay 25 and then lights up when the Sperrmag netventil 28 is switched on, ie when the house water line 4, 5 is blocked. By actuating a switch 30 , the timer 18 is reset to zero and the solenoid valve 28 is unlocked.

The security described in the embodiment locking device works as follows:

If a tap valve is opened in the tap water system, the tap water flows through the safety locking device (arrow Fig. 1, 2 and 3). Part of the water flow is branched off in the bypass 6 ; the water flows past the sensors 7, 8 and cools the front sensor 7 heated by the heating element 24 . The difference in resistance at sensors 7, 8 changes ; the measuring bridge 12 registers the difference in resistance and conveys a signal to the short-time meter 18 via the first relay 15 , which then starts. At constant flow speed, the timer 18 operates after a predetermined runtime - depending on the number and type of taps 10 to 15 minutes - via the second relay 25, the solenoid valve 28 ; the water supply to the tap water system stops and the signal lamp 29 lights up. As a result, it is assumed that the short timer 18 is set to the useful runtime of 10 minutes in most cases.

Should any consumer now want to draw water, he must determine that the water supply is interrupted. He will then press the switch 30 and thus reset the timer 18 to zero. If there is an open tap valve or a pipe break in the tap water system, the water will flow back into the tap water system for seconds and the cause will be recognized.

However, if a further nozzle is opened within the preselected period of time, this means a stronger flow; the front sensor 7 is additionally cooled, and the difference in resistance between the two sensors 7, 8 is greater. The measuring bridge 12 signals via the first relay 15 the new difference in resistance to the timer 18 ; The new signal resets the minute minder to zero and a new runtime of 10 minutes begins. The same thing happens if one is closed when several nozzles are open at the same time; the slowed-down water flow leads to the sensor 7 heating up again and the measuring bridge 12 emitting a corresponding signal to the short-time meter via the relay 15 .

The safety locking device thus ensures that an unwanted outflow of tap water - whether caused by carelessness or by leaks, pipe breaks or the like - cannot last longer than 10 seconds. On the other hand, the safety locking device reacts exclusively to evenly flowing water and does not function if several nozzle valves are actuated alternately, because each additional opening or closing of nozzle valves each has a new resistance difference at sensors 7, 8 and thus a new start signal means the timer 18 .

The bypass 6 is not absolutely necessary in order to implement the inventive idea. The sensors 7, 8 can also be arranged directly in the water intermediate pipe 2 . The bypass 6 is used only for a more specialized repair, in that the bypass can be designed with detachable sensors (not shown), so that a possible repair without shutting off the main water pipe 4, 5 is possible.

The embodiment is based on the conventional one Electrical engineering. However, the invention can also by means of Electronics (microprocessors) can be realized.

Claims (5)

1. Safety locking device for tap water systems, which is switched on between the water supply line and the tap water system, in which every change in the water flow in the tap water system actuates a switching element, which initiates the actuation of a timer set to a predetermined time period, which after the predetermined time period and always still constant water flow triggers a shut-off valve, which prevents the further water supply to the tap water system, characterized in that the changes in the water flow rate actuating the short-time meter ( 18 ) are signaled by two sensors ( 7, 8 ) consisting of temperature-dependent resistors, which one behind the other the water pipe ( 4, 5 ) are arranged and connected to a measuring bridge ( 12 ), the front sensor ( 7 ) seen in the flow direction of the tap water by means of a heating element ( 24 ) located in it e experiences heating, while in the measuring bridge ( 12 ) with temperature changes at the sensors ( 7, 8 ) resulting measuring surges via a measuring bridge ( 12 ) downstream amplifier relay ( 15 ) start the short-time meter ( 18 ), which after a predetermined A solenoid valve ( 28 ) is actuated for a period of time. 2. Safety locking device according to claim 1, characterized in that the timer ( 18 ) at the same time with the actuation of the solenoid valve ( 28 ) in the starting position (zero position). 3. Safety locking device according to claim 1, characterized in that a pressure switch ( 30 ) is provided for resetting the timer ( 18 ) in the starting position (zero position). 4. Safety lock device according to claim 1, characterized in that the sensors ( 7, 8 ) in a to the water line ( 4, 5 ) connected bypass ( 6 ) are arranged. 6. Safety blocking device according to claim 1, characterized in that the magnetic blocking valve ( 28 ) a signal light ( 29 ) is connected in parallel.