DE19814903C2 - Process for the preventive shut-off of a supply line for a medium depending on the consumption habits of the users and pressure measurement in the lines - Google Patents

Abstract

The problem is that pipe breaks, leaks, overflowing containers and other faults have only been recognized when they have already caused great damage. This was then responded to by shutting off the supply lines or an alarm. There is a risk of explosion or poisoning if gas escapes. DOLLAR A To solve these problems, the consumption habits of the users and the pressure measurement in the pipes are evaluated as a criterion for determining a leak in the pipe system. In addition, the pipelines are only temporarily opened for an intended withdrawal. The opening time and duration are recorded and evaluated statistically. Due to the opening characteristics of a sampling point, a leak can be differentiated from a desired removal. DOLLAR A The device can be installed in water pipes and gas pipes of buildings. Installation in circulation lines with different inflows and outflows is also possible. Underground water and gas pipes were previously unprotected and can now be secured.

Description

Method for shutting off a supply line for a medium, in which the consumption habits of the users and the pressure measurement in the pipes as a criterion be evaluated for the detection of a leak in the piping system.

State of the art is an outlet stop according to DE 32 42 750 A1, which indicates the amount of consumption Pipelines connected individual consumers determined and these quantities with specified Compares target values. In general, the volume measurement is based on the specified setpoints of the technique.

However, this is only suitable as individual protection and not a pipeline network with many To secure tapping points, which can be mechanical or manual. One no clear setpoint can be assigned to the manual tapping point. A manual The tapping point can be opened a quarter, half or fully by hand. All intermediate positions are also possible. A machine tapping point would also need a large number Setpoints are specified because the volume per unit of time depends on the pressure changed.

So far, pipe breaks, leaks, overflowing containers and other faults have only occurred recognized if they had already caused great damage. That was followed by one Shutting off the supply lines or an alarm reacts.

Solve the measures specified in claim 1 the problem of what exists Facilities react, but only when there is already damage caused by the escaping medium appeared. The reason for this is the deficiency of the technical equipment. The shortcomings are Inflexibility in use, late or non-detection of leaks and large measurement errors. The inflexibility of today's protective devices is shown in fixed parameters, which lead to the closing of the piping system late in the event of damage. That is true especially when there is a full opening of the cross section due to a pipe break or comes to bursting of hoses. Depending on the device and medium, that would be hundreds of liters. Water damage in buildings is particularly great if it occurs a long time after a In the event of a fault, no measures are taken to rectify the fault.

With the medium gas, there is the high risk potential. Small amounts of one flammable gas leads to the formation of an explosive in rooms filled with air Mixture. But there is not only a risk of explosion. Gas also leads to poisoning. This is a silent threat with a high risk potential. This affects mostly inhabited people Building. Even late closing of a gas line in the event of a fire leads to serious consequences. The Fire spreads further through the escaping gas and endangers the fire brigade and the Rescue workers.

The biggest shortcoming of previous facilities is the measurement inaccuracy of the Volume measurement. Current measuring devices require a minimum flow rate of 1 to 3 Liters per hour for a measurement to take place. If you use such a device, you get an incredibly large amount of losses per year. Because of large measurement errors no beginning leaks are detected with conventional protective devices. Each Leakage due to corrosion or erosion on pipelines begins with minimal  Perforation of the pipes. The material doesn't matter. Even modern stainless steel Water pipelines are affected by corrosion. The reasons are regional today aggressive water and currents induced in water pipes. These little ones Perforations are then visible at best as seepage points.

These minimal leaks must be quickly identified in order for the later to occur to respond to major damage.

The existing shortcomings of existing facilities are, through the procedures according to Claims 1 to 7 eliminated. The device uses the pressure measurement in the pipeline to adapt to the habits of the users. This will be logical Connections and usage sequences used for a desired withdrawal from a Distinguish between leaks. Furthermore, the physical conditions in the Pipeline recorded and evaluated. This primarily means the pressure measurement. In addition, the temperature, the dynamics of the medium and the sound in the pipeline evaluated. This information is recorded and evaluated by a powerful small computer coped. A simple logical connection is to For example, if a tapping point is opened, the pressure in the pipe system drops. Will one open further tapping point, the pressure in the pipeline continues to drop. To do this, the The ratio of the pipe cross-section to the quantity to be taken. Another point to note is the nightly pressure drop in the hot water tank. The water in the hot water tank cools changes because the boiler temperature is lowered at night. The consequence is one Volume reduction of the water and the resulting pressure drop.

A typical habit of a residential building user is to get up in the morning a certain time, or cooking at certain times. Typical removal times and - Duration are recorded and evaluated according to programmed rules.

The kinematics of the medium and the sound, which the pipeline transmits very well, is also evaluated. Each tapping point has a specific opening characteristic, which is in a pressure drop curve, subsequent pressure fluctuations and noises in the Pipe system expresses.

An advantageous addition to the device in claim 1 is specified in claim 2. The extension according to claim 2 leads to early detection of leaks in pressurized piping systems. By measuring the pressure with the Pipeline is starting to leak, with minimal loss, or one existing leakage reliably detected and reported. The lines are only at Released temporarily. If a fault is detected, the pipe system remains cordoned off. The advantage of preventive barriers is the reliable prevention of Damage caused by escaping liquids or gases.

The extension according to claim 3, wherein also a pressure above the normal level is evaluated and, when detected, leads to the water supply being switched off, protects against Damage caused by excessive line pressure. Defective pressure regulating devices are immediately recognized. Consequential damage is prevented.

The extension according to claim 4 enables a statistical evaluation of the Pressure conditions carried out in the piping system and in the event of a deviation from normal temporal processes is reacted to. The extension in connection with claim 2. increases security when distinguishing between normal withdrawals and the lowest Leaks that also lead to a regularly recurring drop in pressure.  

The extension according to claim 5 leads to the detection of defective end devices, such as for example a washing machine or a dishwasher. The leaked is Medium water detected. This is reacted to by shutting off the supply line. The operators are alarmed.

The extension according to claim 6 enables damage reduction and in the event of a fire securing the extinguishing work. The fire is activated by the fire detectors recognized. The supply of gas to the pipelines is interrupted.

The extension according to claim 7 makes it possible to distinguish between different ones Tapping points. Thanks to the pressure transmitter built into the pipeline Pressure gradients recorded when opening a tapping point and from other signals be distinguished. This makes it possible to differentiate between different tapping points. Each Tapping point generates different pressure waves and losses when opening, which in the evaluating system are stored and with the resulting in the piping system Pressure fluctuations are compared. This enables a leak to be distinguished from a normal withdrawal at a withdrawal point.

An embodiment

Further advantages also result from the following exemplary embodiment in connection with the figures of the drawings. Show it:

Fig. 1 shows a section through a building with two floors and the basement. A piping system for gas is shown. Different gas consumers are shown. The arrangement of the gas and fire detectors is shown.

Fig. 2 shows a section through a building with two floors and the basement. The arrangement of the control is shown. The piping system and manual as well as automatic withdrawal devices are shown.

The device described is used inside and outside buildings for the preventive shut-off of fluids and gaseous substances. One embodiment is a shut-off device for a water supply line in a residential building. A shut-off valve is integrated in the supply line of a house ( 3 ). The valve is closed when de-energized. In the event of power failures and emergencies, the water supply can be opened manually using a bypass ( 4 ). The power supply of the device can also be ensured by a charged accumulator. The device is powered by the power grid, with a transformer interposed. The shut-off valve is connected to a control device ( 2 ). The control device gives the signal to open or close the shut-off valve. The pressure evaluation is also integrated in the control device. The pressures in the piping system are determined by pressure switches or pressure transmitters. When using an intelligent pressure sensor, a pressure evaluation separate from the control is also conceivable. If a person enters the kitchen or bathroom to take out water, the pressure loss that occurs in the supply line is recognized by the pressure sensors when the tap is opened. The device can record and evaluate the pressure loss over time. Due to the characteristics when opening a tapping point, the control can recognize whether a pipe is defective or normal tapping is taking place. The control opens the shut-off valve and water can flow to the tap. Since the pressure in the lines would also drop in the event of a pipe break, various boundary conditions must also be checked. In order to distinguish the opening of a water withdrawal point from a pipe break, the magnitude and the course of the pressure drop are also examined. Various events can be programmed or recorded on the object. If an event unknown in the characteristic occurs, the shut-off valve remains or is closed. Unknown events can be a sudden loss of pressure or a gradual loss of pressure in the shut-off phase. Even unknown pressure pulses, depending on their nature, can indicate errors in the system.

Another possible application is the switching of a gas supply line ( 10 ) in a building, various gas consumers being connected as shown in FIG. 1. These are a gas boiler and a water heater that are ignited electronically. When installing the pipeline safety device, permanent gas extraction is not possible because this is considered a malfunction. Modern gas consumers no longer have a pilot light. The gas line is activated due to a drop in pressure, the opening characteristic being evaluated beforehand. In the event of an unusual pressure drop and thus gas leakage, the gas main solenoid valve ( 11 ) remains closed until the fault message is deleted. In addition to the pressure sensor, gas detectors ( 13 ) are installed, which are installed in the vicinity of gas lines or gas tapping points ( 14 ). The data transmission ( 15 ) from the gas detectors to the control takes place by cable or wirelessly. Fire detectors ( 16 ) can also be installed at locations where there is a risk of fire. These are e.g. B. kitchens, stairwells, boiler rooms and underground garages etc.

If the fire detector detects a fire or smoke, the gas supply is blocked by the control ( 17 ) so that no gas can flow in. The fire detectors ( 16 ), like the gas detectors ( 13 ), are connected to the control.

Claims (7)

1. Procedure for shutting off a supply line for a medium, at which the habits of the users, via a pressure measurement in the lines, as Criterion for the detection of a leak in the piping system evaluated become. 2. The method according to claim 1, characterized in that that in the Switch-off phase of the line pressure measured in the blocked pipeline and with an unusual for normal consumption Pressure drop in the piping system a fault is signaled. 3. The method according to one or more of the preceding claims characterized in that not only a pressure drop is evaluated, but also pressures above the normal level. 4. The method according to one or more of the preceding claims characterized in that a statistical evaluation of the pressure conditions in the Pipe system is carried out and responds to deviations from the determined cycles becomes. 5. The method according to one or more of the preceding claims characterized in that in addition liquid or gas sensors for detecting the escaping medium can be used. 6. The method according to one or more of the preceding claims characterized in that in the case of gas lines in addition fire detectors for detecting smoke development and thus a fire can be used. 7. The method according to one or more of the preceding claims characterized in that the opening characteristics of a tapping point are recorded and is evaluated and to distinguish between a leak and the normal open a tapping point.