JP3300928B1 - Salt spray test equipment - Google Patents

Abstract

Abstract: PROBLEM TO BE SOLVED: To provide a salt spray test method and a salt spray test apparatus, wherein a water temperature of a test salt solution to be sprayed is maintained at an arbitrary temperature, and a fog under a low temperature condition in alpine and a fog under a high temperature condition in a tropical zone. To carry out a spray test while improving reliability and responding to various tests. SOLUTION: A test salt solution in a test salt solution storage tank disposed in a test tank is sprayed at a low temperature or a high temperature by a refrigerator and a heater.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a salt spray test apparatus used for a corrosion test. In the present invention, the salt spray test device refers to a continuous salt spray test device and an intermittent salt spray test device. The intermittent salt spray test device is a so-called combined cycle salt spray test device that performs a salt spray test in which salt spray is performed intermittently, and sends dry air and wet air sequentially into the test tank. It has means to perform.

[0002]

2. Description of the Related Art In a salt spray test, a corrosive solution of 5% salt water is sprayed on a test object to test the corrosiveness of the test object. In detail, the test solution guided from the salt water supply tank to the test salt solution storage tank is sprayed from the spray nozzle with a compressed air as a corrosive liquid from the spray nozzle and diffused into the test tank from the spray tower as a mist, and into the tank. The test is carried out by allowing the mist to naturally fall from above on the placed test piece and contacting it. Then, corrosion of the test piece is promoted by the mist. In the present invention, the salt spray test means a neutral salt spray test and an acetate salt spray test. JIS Z 237
At 1: 2000, the temperature of the test salt solution reservoir is maintained at 35 ± 2 ° C. for neutral and acetate spray tests.

[0003] A salt solution storage tank for testing is disclosed, for example, in Japanese Patent No.
As described in Japanese Patent No. 88262, it is provided in a test tank and is provided in the lower part of the spray tower. Conventionally, the temperature of the test salt solution storage tank has been indirectly heated to and maintained at the same temperature as the temperature in the test tank by keeping the inside of the test tank at the test temperature of 35 ± 2 ° C. However, the water temperature in the test salt solution storage tank was not directly controlled. Therefore, the water temperature could not be set to an arbitrary temperature different from the temperature in the test tank.

On the other hand, fog generated in the sky, which is lower than the temperature on the ground, and reaching the ground, and fog in alpine and mountainous areas are:
It is thought that the effect of corrosion is different from fog generated in cities and rural areas. For building materials and communication facilities in the mountains, and aircraft in the sky, etc., it is important to perform a corrosion test using fog at a temperature lower than the ground temperature due to the usage environment. Conversely, in the tropics, it is conceivable that fog higher than the conventional salt spray test temperature of 35 ° C. will fall. However, such a case is not considered in the conventional salt spray test method.

[0005] Further, knowledge of the corrosion state at a temperature lower than the conventional test temperature of 35 ° C, for example, at 5 ° C, could not be obtained with the conventional salt spray test apparatus. In a conventional test apparatus in which a test salt solution storage tank is provided below the spray tower in the test tank, the temperature of the spray liquid and the air temperature in the test tank are controlled to 35 ± 2 ° C. by a heater, This is because the spray liquid was indirectly kept at 35 ° C. by heat transfer.

[0006]

SUMMARY OF THE INVENTION Conventional salt spray test equipment
In location, there is a problem that different is not obtained knowledge of the corrosion state when the temperature can not test corresponding to the diversity of corrosive environment sought the temperature of the spray liquid within the test chamber Was.

In the conventional salt spray test apparatus, the air in the test tank is heated by a heater to a test temperature of 35 ± 2.
The temperature of the sprayed test salt solution was indirectly controlled by heating and maintaining the temperature at ° C. There was no means for cooling the inside of the test tank. Since the water temperature in the test salt solution storage tank is not directly controlled, the test cannot be performed at a temperature of the spray liquid other than 35 ± 2 ° C, for example, 5 ° C. There was a problem that it was not possible.

Further, in the conventional salt spray test apparatus, since the water temperature in the test salt solution storage tank is not directly controlled, there is a problem that the temperature of the spray liquid cannot be accurately controlled and reliability is low. .

Accordingly, an object of the present invention is to solve the above-mentioned problems of the prior art, to meet the needs of spray tests in various corrosive environments such as spray tests in alpine and to have a highly reliable salt spray test. It is intended to provide a device .

[0010]

The object of the present invention is to provide a salt of the present invention.
Built-in water spray test equipment , i.e. float type open / close valve
The test salt solution storage tank with
Salt water spray with a test tank temperature of 35 ± 2 ℃
In the test equipment, the test salt solution in the test salt solution storage tank
Measure the temperature of the test salt solution
Water temperature control with temperature sensor, heater and refrigerator
Section tank, connected to temperature sensor and heater and refrigerator
Temperature controller, sequencer controlling the temperature controller,
And connected to the water temperature control tank and passed into the test salt solution storage tank.
With a water circulation pipe
The test salt solution in the test salt solution storage tank
And spray each under high-temperature conditions in high mountains
Spray test by reproducing fog under high temperature conditions in the tropics
Achieved by a salt spray test apparatus characterized in that it can be performed .

[0011]

[0012]

Here, the temperature in the test chamber is 35 ± 2 ° C.

[0014]

[0015] The object is to provide a float type on-off valve.
A test solution storage tank having a heat insulating layer
A salt water jet with a test tank temperature of 35 ± 2 ° C
In the fog test equipment, the test salt solution in the test salt solution storage tank is
As a means of adjusting the temperature of the solution, measure the water temperature of the test salt solution.
Temperature sensor, water temperature control tank with refrigerator,
Temperature controller connected to the temperature sensor and refrigerator, temperature
For the sequencer that controls the controller and the water temperature control tank
Connected electronics that can heat and cool the entire test salt solution storage tank
The test installed in the test tank by having a cooling element
Spray test salt solution in salt solution storage tank at low or high temperature
And the fog and the tropics under the low temperature conditions in the alpine, respectively.
Spray test by reproducing fog under high temperature conditions
Can be achieved by the salt spray test equipment
Is done.

[0016]

[0017]

[0018]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail with reference to the drawings by the following embodiments.

FIG. 1 is a schematic front view, partially cut away, showing an example of a configuration of a salt spray test apparatus to which the present invention is applied. FIG.
The apparatus of Example 1, which is one configuration example shown in FIG.
5) The inside of the tank is heated to the test temperature by the steam generator (1), and the salt solution storage tank (1) is supplied from the salt water replenishing tank (18).
After the temperature of the salt solution supplied to 0) is adjusted, the salt solution is sprayed as a mist from a spray nozzle (13), and diffused into a test tank (15) through a tube above a spray tower (14). A salt water spray test device (17) that is subjected to a spray test by allowing the mist to naturally drop from above and contact the placed test piece (16). Test salt solution storage tank (10)
Is disposed in the spray tower (14).

FIG. 2 is a schematic diagram of a main part of a first embodiment of a salt spray test apparatus to which the present invention is applied. In the test salt solution storage tank (10) disposed in the test tank, in order to control the temperature of the test salt solution, a water circulation pipe (8) as a water temperature adjusting means and a water circulation pipe (8) are provided in the test salt solution storage tank (10). A temperature sensor (6) is provided. The temperature sensor (6) is connected to a sequencer (5) as a water temperature control means via a temperature controller (4). Further, a temperature controller (4) connected to a heater (2) as a heater and a refrigerator (3) is connected to the sequencer (5). The heater (2) and the refrigerator (3) are connected to a water temperature adjusting tank (9) to which a water circulation pipe (8) is connected.

The information on the water temperature of the test salt solution in the test salt solution storage tank (10) is sent to the temperature controller (4) and finally to the sequencer (5) by the temperature sensor (6). The refrigerator (3) and the heater (2) from the sequencer (5) through the temperature controller (4) such that the temperature of the test salt solution in the test salt solution storage tank (10) becomes the temperature set by the tester. )). The refrigerator (3)
It is always turned on except when raising the temperature at the start of the test. The water whose temperature has been adjusted in the water temperature adjustment tank (9) is sent to a water circulation pipe (8) through a pump,
The temperature of the test salt solution in the test salt solution storage tank (10) is adjusted. The water in the water circulation pipe (8) is returned to the water temperature control tank (9) again.

Further, the test salt solution storage tank (10) is surrounded by a heat insulating layer (21) formed of a heat insulating material. The test salt solution storage tank (10) has a float type on-off valve (11) provided therein.

The sprayed mist is stored in a spray liquid collecting container (1).
It is configured to be collected in 9) and further led to a spray liquid measuring cylinder (20) through a measuring cylinder pipe connected to a part of the spray liquid collecting container (19). The salt water replenishing tank (18) is filled with a test salt solution.

The temperature of the test salt solution in the test salt solution storage tank is controlled by ON-OFF control or PID control. For example, when the temperature in the test tank is maintained at 35 ± 2 ° C., for example, the water temperature of the test salt solution is 60 ° C.
It can be controlled to be kept at ± 2 ° C. or 0 ± 2 ° C.

In the first embodiment of the salt spray test method to which the present invention is applied, the first embodiment of the salt spray test apparatus is used.
After the temperature of the test salt solution is adjusted by a refrigerator and a heater in the test salt solution storage tank disposed in the test tank, the test salt solution having a temperature lower than the temperature in the test tank is sprayed. Example 1
In the test, the temperature in the test tank is 35 ± 2 ° C., and the temperature of the test salt solution is adjusted to 5 ± 2 ° C. in the test salt solution storage tank.
In Example 1, 5% NaC was used as the test salt solution.
(1) A salt solution for acetate spray test obtained by adding acetic acid to salt water is used.

Specifically, the inside of the test tank (15) is heated and maintained at a test temperature of 35 ± 2 ° C. by the steam generator (1), and the test salt solution storage tank (1) is moved from the salt water replenishment tank (18).
0) and the temperature of the salt solution adjusted to 5 ± 2 ° C.
The mist is sprayed from the spray nozzle (13) as a mist, and diffused into the test tank (15) through a pipe above the spray tower (14). The mist is naturally applied to the test piece (16) arranged in the tank from above. Perform the spray test by dropping and contacting.

In the present invention, since the temperature of the test salt solution is directly controlled, the reliability of the test is high. Example 1
In, it is possible to reproduce the corrosion that occurs when fog generated in the sky that is colder than the ground falls on the ground.

FIG. 3 is a schematic view of a main part of a salt spray test apparatus according to a second embodiment of the present invention. In Example 2 of the salt spray test method to which the present invention is applied, the test apparatus shown in FIG. 3 is used. The difference between the salt spray test apparatus of Embodiment 1 of the present invention shown in FIG. 2 and the salt spray test apparatus of Embodiment 2 of the present invention shown in FIG. 3 is that an electronic cooling element is used instead of the water circulation pipe (8). In (7), the temperature of the test salt solution is controlled by heating or cooling the entire test salt solution storage tank (10). Further, the heater (2) is not provided in the water temperature adjusting tank (9). The electronic cooling element (7) is-
This is because while it can be cooled to about 20 ° C., it can be heated to 70 ° C. or 80 ° C. by flowing a current in reverse.

In Example 2 of the salt spray test method to which the present invention is applied, in the test salt solution storage tank (10) disposed in the test tank (15), the test salt solution is cooled by the electronic cooling element (7). After adjusting the temperature, a test salt solution having a temperature lower than the temperature in the test tank is sprayed. In Example 2, the temperature in the test tank was 35 ± 2 ° C., and the temperature of the test salt solution was adjusted to 0 ± 2 ° C. in the test salt solution storage tank (10). In Example 2, a neutral salt spray test salt solution composed of 5% NaCl salt water is used as the test salt solution. The test salt solution does not freeze at -2 ° C due to freezing point depression.

FIG. 4 is a schematic view of a main part of a third embodiment of a salt spray test apparatus to which the present invention is applied. In the third embodiment of the salt spray test method to which the present invention is applied, the test apparatus shown in FIG. 4 is used. The difference between the salt spray test apparatus according to the first embodiment of the present invention shown in FIG. 2 and the salt spray test apparatus according to the third embodiment of the present invention shown in FIG. The test salt solution whose temperature has been adjusted by the refrigerator (3) and the heater (2) in (18) flows into the test salt solution storage tank (10) connected via a pump, thereby causing the test salt solution storage tank (10) to flow. ) Is to regulate the temperature of the test salt solution. The temperature sensor (6) measures the water temperature in the salt water replenishing tank (18). Test salt solution storage tank (1
The test salt solution in 0) is circulated back into the salt water replenishing tank (18) to maintain the temperature.

In Example 3 of the salt spray test method to which the present invention is applied, the salt solution for testing is cooled in a refrigerator (3) and a heater (2) in a salt water replenishing tank (18) provided outside the test tank (15). ), The temperature in the test tank was reduced to 3
The temperature is adjusted to 5 ± 2 ° C., and the temperature of the test salt solution is adjusted to 60 ± 2 ° C. and sent to the test salt solution storage tank (10). In Example 3, a neutral salt spray test salt solution composed of 5% NaCl salt water is used as the test salt solution.

For example, in steel, corrosion due to 5% NaCl salt water increases as the temperature rises, rapidly decreases when the temperature exceeds the critical temperature of corrosion of 60 ° C., and there is no significant difference between 65 ° C. and 80 ° C. corrosion. Therefore, according to the third embodiment of the present invention, if the steel is corroded with 5% NaCl salt water, a test with a higher test acceleration than the corrosion test at a test temperature of 35 ± 2 ° C. can be performed.

[0033]

As described above, in the salt spray test apparatus of the present invention, since the temperature of the spray liquid can be set arbitrarily, the corrosion generated when the mist generated in the cold sky falls on the warm ground and the high hills It can be used for tests that reproduce the corrosive environment under various conditions in the natural world, such as corrosion at sea, corrosion when an aircraft is flying over the air, and corrosion in the tropics. In addition, a test with higher accelerating ability can be performed.

In the salt spray test apparatus of the present invention, the water temperature in the test salt solution storage tank can be directly controlled. Therefore, by changing the temperature of the test salt solution in various ways, the temperature of the spray can be actively raised and lowered, and the temperature of the spray liquid can be controlled accurately as a secondary measure, thereby improving the reliability of the test. it can.

[Brief description of the drawings]

FIG. 1 is a schematic front view showing an example of a configuration of a salt spray test apparatus to which the present invention is applied, partially cut away.

FIG. 2 shows a first embodiment of a salt spray test apparatus to which the present invention is applied.
FIG.

FIG. 3 shows a second embodiment of a salt spray test apparatus to which the present invention is applied.
FIG.

FIG. 4 shows a third embodiment of the salt spray test apparatus to which the present invention is applied.
FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Steam generator 2 Heater 3 Refrigerator 4 Temperature controller 5 Sequencer 6 Temperature sensor 7 Electronic cooling element 8 Water circulation pipe 9 Water temperature control tank 10 Salt solution storage tank for test 11 Float type on-off valve 12 Air saturator 13 Spray nozzle 14 Spray tower Reference Signs List 15 Test tank 16 Test piece 17 Salt water spray test device 18 Salt water replenishment tank 19 Spray liquid collection container 20 Measuring cylinder for spray liquid 21 Heat insulation layer

Claims (2)

(57) [Claims] 1. A float type on-off valve is provided inside and a heat insulating layer is provided.
A test salt solution storage tank with
Salt spray test equipment with a test tank temperature of 35 ± 2 ℃
The temperature of the test salt solution in the test salt solution storage tank
As a means, a temperature sensor for measuring the water temperature of the test salt solution
Temperature, water temperature control tank with heater and refrigerator, temperature
Temperature control connected to sensor, heater and refrigerator
, Sequencer to control temperature controller, and water temperature control
Water circulation connected to the tank and passed through the test salt solution storage tank
By having a pipe, for testing arranged in the test tank
Spray test salt solution at low or high temperature in salt solution storage tank
And the fog and the tropics under the low temperature conditions in the alpine, respectively.
Spray test by reproducing fog under high temperature conditions
A salt spray test apparatus characterized in that it can be used. 2. A heat-insulating layer in which a float-type on-off valve is provided.
A test salt solution storage tank with
Salt spray test equipment with a test tank temperature of 35 ± 2 ℃
The temperature of the test salt solution in the test salt solution storage tank
As a means, a temperature sensor for measuring the water temperature of the test salt solution
ー, water temperature control tank with refrigerator, temperature sensor and cooling
Temperature controller connected to the freezer and control the temperature controller
Test salt connected to sequencer and water temperature control tank
Has an electronic cooling element that can heat and cool the entire solution storage tank
As a result, the test salt solution storage tank
Spray the test salt solution at low or high temperature
Fog under low temperature conditions and high temperature conditions in the tropics
The feature is that the fog can be reproduced and the spray test can be performed.
Salt spray test equipment.