DE2537429B2 - CORROSION DETECTION DEVICE - Google Patents

Description

The invention relates to a corrosion testing device, in particular a test chamber for generating Corrosive climates with automatic control of temperature and relative humidity and atomization a salt solution with the help of compressed air in a spray nozzle in the form of a fine mist.

In a known salt spray test chamber, the nozzle is connected to a mixing chamber in which the Saline solution and the compressed air are mixed together and the opening cross-sections for the Liquid and compressed air can be adjusted independently of each other in front of the mixing chamber. This has so in contrast to simply spraying a salt solution, the advantage of a more even distribution of space. Valves and narrow supply lines can, however, become encrusted within a very short time due to the salt solution and clog. SS

Furthermore, a device is known in which a nozzle a liquid line and is connected to a compressed air line for atomizing a saline solution. at the known device, the compressed air flows through warm water before entering the nozzle and is thereby preheated and moistened about the supply of the salt solution and its temperature is this reference (VDI-ZEITSCHRIFT 110, 1968, No. 27, Sept. HI, p. 1194) nothing to be found.

The invention has the task of eliminating disturbances in the 6s To avoid set brine supply system and a more even mist formation within the test chamber guarantee.

This object is achieved according to the invention in a corrosion testing device of the type described at the outset in that the spray nozzle is connected to an open container by a suction line with a large passage cross section for the supply of the saline solution which in turn is connected to a storage container arranged outside the test chamber and within the Pmfkammer the controlled by a temperature controller to the mean room temperature Heating device is assigned

The advantages of the invention are obvious: In addition to the uniform and intensive salt mist formation, without the brine already condensing during spraying, the brine is fed into the in the invention Test chamber automatically, and the brine has due to its arrangement in the chamber and the assignment to the The heating device, which is regulated to the usable space temperature, always has the correct temperature. The brine supply system does not need its own control or metering devices such as pumps or metering valves.

Refinements of the invention are to be found in the subclaims

The invention is described in greater detail below with the aid of an exemplary embodiment shown in the drawing explained

The test chamber shown consists of a housing 1 in which a usable space container 2 is sealed The usable space is closed off by a cover 4, one of which is encircling a water seal has edge 3 reaching into it. At the bottom of the test chamber is between usable space container 2 and Housing 1 is a planar electrical heating device 5, for. B. od a heating mat. The like, arranged This Heating is controlled by a preferably electronic temperature controller 6, the sensor 7 of which is in the Usable space protrudes The arrangement of the sensor inside the usable space container is such that in approximately the mean temperature of the usable space is recorded. A semiconductor sensor with a negative) temperature coefficient, which has a plastic coating

A nozzle 8, in which the mixture is also formed, is used to atomize the brine-air mixture Nozzle 8 is connected via a suction line 20 to a brine tank 21 open on one side, which in turn Via a line 22 and a shut-off valve 23 to the storage container 9 outside the test chamber is connected All brine line cross-sections are chosen so that encrusting or clogging by the Salt solution practically no longer takes place or is made considerably more difficult. The brine reservoir 9 has a Level indicator 10 and a filler neck 24. The shut-off valve 23 has only an open-close function and no control function and has a large passage cross-section. The brine supply from the storage tank 9 into the container 21 and to the nozzle takes place automatically. The wall of the usable space container 2 and of the housing 1 of the test chamber is penetrated by an exhaust port 11, which acts as a pressure compensation and can lead to the outside via a line.

A compressed air line 19 leads from the atomizer nozzle 8, in which the mixture formation between tempered Salt solution and saturated compressed air of elevated temperature takes place, to a compressed air connection, which is connected to a Pressure regulator 12 is provided The connection can either be with a compressor or with a other compressed air supply device are connected. The compressed air flows above the source from the source

Regulator 12, in which the overpressure is set, in the humidification tank 13 with a certain water level. The water in the humidification tank 13 is from the heating device 14, which is controlled by a controller 15 is regulated, brought to such a high temperature that the humidified compressed air leaving the container 13 at such a temperature in the nozzle 8 can be atomized, which is higher than the mean temperature of the usable space. The humidifier 13 is of a container 26 fed with water, which has a pressure relief valve 17 and a low water alarm 18 has with 25 the filler neck for fresh water is referred to, which with the filler neck 24 for the Sole can be spatially combined and is led out of the housing 1 upwards to refill facilitate. The brine reservoir can also be refilled during operation. Through the The design of the cover avoids that the salt fog condensate outside the housing dimensions drips off the test chamber

After the test chamber from a compressed air supply device, either a compressor or a Existing compressed air system was connected, the compressed air inlet valve is opened and the the pressure set on the pressure regulator 12 in the humidification tank 13 above the heated water bath. The compressed air assumes a temperature in the humidifier 13 which is higher than the usable space temperature and saturates with moisture Since the overpressure set on the regulator 12 is higher than the pressure in the Test chamber, the compressed air passes through the line 19 into the nozzle 8 made of plastic or stainless steel, which when When the compressed air flows out in the line 20, a suction is generated and the brine is thus drawn in from the container 21 Fs a salt mist mixture corresponding to the set pressure is formed, which is vertically in the usable space is sprayed and also due to the central arrangement of the nozzle 8 a uniform and dense mist

In order not to form any gradients between the temperature in the usable space and the saline solution received, the brine tank 21 is housed in the usable space and so the brine is at the usable space temperature preheated The brine supply takes place automatically from the storage tank 9 by sucking up the amount of brine from the storage container 9 via the line 22 corresponding to that through the line 20 to the nozzle 8 deducted amount. The brine supply is expediently designed for multiple tests in the test chamber and can be monitored via the level indicator 10 as well as the water level at 16 in the humidifier 13 will. If the liquid levels displayed there are too low, then at the corresponding connection 24 and 25 can be refilled. Refilling can also take place during operation. By the on the ground The electrical heater arranged in the utility space is used to distribute heat in the utility space that maintains the salt spray even after the spray device has been switched off

1 sheet of drawings

Claims (5)

Patent claims: ί. Corrosion testing device, in particular test chamber for the generation of corrosive climates with automatic control of temperature and relative humidity and atomization of a salt solution with the aid of compressed air in a spray nozzle in Shape of a fine mist, characterized that for supplying the saline solution, the spray nozzle (8) through a suction line (20) large Passage cross-section is connected to an open container (21), which in turn is connected to an outside the test chamber arranged storage container (9) is connected and within the test chamber of the Assigned heating device (5) regulated by a temperature controller to mean useful space temperature is 2. Corrosion testing device according to claim 1, characterized in that the floor of the chamber is assigned a surface heating system (5) which covers the surface or almost covers it 3. Corrosion testing device according to claim 1 or 2, characterized in that the nozzle (8) is arranged centrally or almost centrally in the test room and the atomization takes place vertically upwards 4. Corrosion testing device according to one of the preceding claims, characterized by a shut-off valve (23) in the line (22) between the storage container (9) and the open container (21) in the chamber. 5. Corrosion testing device according to one of the preceding claims, characterized by a adjustable pressure control valve (12) in the compressed air supply line.