KR102595437B1 - device test apparatus under the outside weather condition and device test method using the same - Google Patents

Abstract

The present invention relates to an equipment testing device under outdoor conditions that can verify whether equipment can perform properly at extreme temperatures and an equipment testing method using the same. To this end, the present invention includes an outdoor air condition area equipped with an outdoor condition generating device that generates outdoor air conditions to be tested; A preheater installed in the outdoor air condition area to preheat the outdoor air; an apparatus area where a heating device for heating the preheater is installed; An equipment test device under outdoor conditions is provided, which includes a test area in which a control unit for controlling the external air condition area and the device area is installed.
Therefore, according to the present invention, there is an advantage that the performance of the equipment can be verified in the same environment as the cryogenic temperature by implementing an environment in which equipment such as an actual preheater operates at cryogenic temperature.

Description

Equipment test apparatus under the outside weather condition and device test method using the same {device test apparatus under the outside weather condition and device test method using the same}

The present invention relates to an equipment testing device under outdoor conditions and an equipment testing method using the same. Specifically, it relates to an equipment testing device under outdoor conditions that can verify whether equipment can perform properly at extreme temperatures and an equipment testing method using the same. will be.

Polar regions such as the North Pole and Antarctica have extremely low temperatures of -50°C or lower, so various equipment often freezes and loses its functionality on ships operating in polar regions.

In particular, ships must suck in external air and supply it to the engine room or cabin, etc., but if very low temperature air enters directly inside, it not only reduces the efficiency of the heating device, but also puts a strain on the equipment and causes a breakdown.

Therefore, a preheater is provided adjacent to the air intake port. The preheater preheats the air sucked in from the outside and transfers it to a heating device such as a thermal oil heater inside.

However, there is no way to check the performance of equipment such as these preheaters until you go directly to the polar region. However, it is virtually impossible for buyers to go all the way to the extreme to check performance.

According to the prior art, Patent Publication No. 10-2007-0011675, a high-temperature and low-temperature test chamber device for testing by placing equipment in a chamber and controlling it to high or low temperature is disclosed.

However, these devices can simply place the equipment in a chamber and control the temperature, so it is not known whether equipment such as preheaters operate properly at cryogenic temperatures.

The purpose of the present invention is to solve the above problems, and the purpose of the present invention is to provide test equipment that simulates the polar region and operates the preheater as in reality even at extremely low temperatures to test whether it operates properly.

In order to achieve the above object, the present invention includes an outdoor air condition area equipped with an outdoor condition generating device that generates an outdoor air condition to be tested; A preheater installed in the outdoor air condition area to preheat the outdoor air; an apparatus area where a heating device for heating the preheater is installed; An equipment test device under outdoor conditions is provided, which includes a test area in which a control unit for controlling the external air condition area and the device area is installed.

The external air condition generating device may be installed with a plurality of coolers that gradually cool the external air condition zone.

Preferably, the outdoor condition area is provided with a water spray device that sprays water into the preheater to freeze the preheater, and the preheater is provided with a temperature sensor for measuring temperature.

The heating device includes an oil tank storing thermal oil; An oil pump for circulating the thermal oil stored in the oil tank; It is preferable to include an electric heater for heating the thermal oil.

The test area may be equipped with a circulation fan to circulate air that has passed through the preheater.

According to another embodiment of the present invention, an outdoor air condition area equipped with an outdoor condition generating device that generates an outdoor air condition to be tested; an air duct for sucking air from the outside air condition area; An equipment area where a heating device for heating the heater is installed; It includes a control unit for controlling the outdoor air condition area and the device area, and a test area where a heater that changes the temperature of the air passing through the air duct is installed, and the temperature of the air is changed before and after the heater according to the air flow. Provides equipment test equipment under outdoor conditions where measuring sensors are installed.

The present invention also includes the steps of controlling an outdoor air condition area to a set temperature by an outdoor air condition generating device that generates an outdoor air condition to be tested; Freezing the surface of the preheater by spraying water using a water spray device toward the preheater provided in the outdoor condition area; Heating the preheater using a heating device installed in an equipment area separated from the outdoor condition area; Controlling the preheater by a control unit installed in the outdoor condition area and the test area partitioned from the device area; Provided is a method of testing equipment under outdoor conditions in which the temperature of the preheater is measured by a temperature sensor installed in the preheater.

According to the present invention, there is an advantage that the performance of the equipment can be verified in the same environment as the cryogenic temperature by implementing an environment in which equipment such as an actual preheater operates at cryogenic temperature.

1 is a block diagram showing the configuration of an equipment test device under outdoor conditions for a surface freezing test according to the present invention;
Figure 2 is an exemplary diagram showing the frozen state of the preheater in Figure 1;
Figure 3 is a flowchart showing a method of testing equipment under outdoor conditions for a surface freezing test according to the present invention;
Figure 4 is a configuration diagram showing the configuration of an equipment test device under outdoor conditions for testing air heating ability according to the present invention.

The configuration and operation of embodiments of the present invention will be described in detail with reference to the attached drawings.

Referring to Figure 1, the equipment test device under outdoor conditions according to the present invention is largely divided into three parts, including an outdoor condition area 100, an apparatus area 200, and a test area 300.

The outdoor condition area 100 is an area for simulating the local environment in polar regions, and is capable of operating in an environment of -70°C or lower depending on the usage environment.

Specifically, outside air condition generating devices 110, 120, and 130 are installed in the outside air condition area 100 to generate the environment of the area to be set. In this embodiment, the external air condition generating device includes a first cooler 110, a second cooler 120, and a third cooler 130.

The first cooler 110 is located at the outermost part of the outside air condition zone 100, and primarily lowers the temperature within the outside air condition zone from room temperature to -30°C. In addition, the second cooler 120 is located between the first cooler 110 and the third cooler 130, and together with the first cooler lowers the temperature in the outdoor condition area to -52°C.

In addition, the third cooler 130 located at the innermost part of the external air condition area, together with the first cooler and the second cooler, lowers the temperature in the external air condition area to -70°C.

Therefore, the user can adjust the external air conditions to be tested by combining the first cooler 110, the second cooler 120, and the third cooler 130, thereby creating a cryogenic environment such as the North Pole or the South Pole. there is.

The outside air condition zone 100 is provided with an outside air temperature sensor 140 to measure the temperature within the outside air condition zone, and the measured data is transmitted to the control unit 310.

The product to be tested is installed in the outdoor condition area 100. In particular, in this embodiment, a pre-heater (400) heated by thermal oil is provided as a product to be verified. In particular, the preheater is located between the second cooler 120 and the third cooler 130 to be easily exposed to cryogenic temperatures.

Meanwhile, an apparatus area 200 is provided inside the outside air condition area 100. The device area 200 is equipped with an operating device to demonstrate the performance of the product to be verified. In this embodiment, the operating device includes an oil tank 210, an electric heater 220, and an oil pump 230.

The oil tank 210 stores thermal oil, and the thermal oil is circulated by the oil pump 230. In this embodiment, the oil pump 230 is capable of operating up to 200°C, and is internally branched into dual lines to enable pumping. Additionally, the flow speed of thermal oil can be adjusted by the control unit 310.

An electric heater 220 is provided in the oil line connecting the oil tank 210 and the oil pump 230, and the thermal oil is heated to about 125°C to 130°C by the electric heater.

The thermal oil circulates through the oil line, passes through the preheater, exchanges heat, and serves as the fruit of the preheater.

In this embodiment, the oil tank 210 can store approximately 350 liters of thermal oil, and is equipped to check the stored amount of thermal oil using a gauge attached to the oil tank. In addition, the oil tank is covered with a heat conduction prevention material (thermal insulating material) to prevent heat transfer to the outside and to maintain the thermal oil inside at a constant temperature.

The electric heater may be provided in two sets, and may be provided in the oil line returning after circulation and the oil line discharged from the oil tank. These two sets of electric heaters may be controlled manually or automatically by the control unit 310. At this time, the control unit 310 can control the temperature of the thermal oil by controlling two sets of electric heaters.

A test area 300 is provided at the innermost part of the equipment test device under outdoor conditions. The test area 300 is equipped with a control unit 310 to check the current temperature of the outdoor condition area, the temperature of the product to be verified, the temperature of the thermal oil, the flow speed of the thermal oil, etc., and the user can check the temperature of the thermal oil, The test environment can be changed by manipulating the flow rate of thermal oil and the temperature of the outdoor condition area.

Meanwhile, the test area 300 is equipped with a circulation fan 350 that can absorb and circulate air in the outdoor condition area. In this embodiment, air in the outside air condition area is absorbed through the preheater 400, and the absorbed air is circulated through the air duct and discharged back to the outside air condition area.

The air duct is installed penetrating the outdoor condition area 100, the equipment area 200, and the test area 300, and heat exchange occurs while circulating through the duct. These air ducts simulate the supply of outside air to various areas such as the engine room and guest rooms on an actual ship.

Meanwhile, a water spray device 150 is provided in the outdoor condition area to freeze the surface of the preheater. The end of the water spray device 150 is installed adjacent to the preheater 400 and can spray water through a nozzle to generate water mist.

Specifically, referring to FIG. 2, a plurality of louver blades 410 are provided on the outer surface of the preheater, and air in the outdoor condition area is sucked in between the louver blades. At this time, heat exchange occurs as thermal oil circulates inside the louver blade, and the air is preheated as it passes through the preheater. The louver blade 410 is equipped with a louver blade temperature sensor 430 to measure the temperature of the louver blade 410.

If water is sprayed through the water spray device 150 before operating the pre-heater, the temperature in the outdoor condition area is very low, so the surface of the louver blade is momentarily frozen, causing freezing (A). When freezing occurs, the entrance to the preheater is blocked and air cannot be sucked in, so the air circulation device cannot operate properly.

At this time, by operating the control unit to circulate the thermal oil and operate the pre-heater, it is verified whether the ice formation area is released at a set time.

In this way, according to the present invention, the operating state of the equipment can be actually confirmed in the same extreme environment as cryogenic temperatures, so there is an advantage in that the performance can be verified before actual operation of the equipment.

Next, with reference to FIG. 3, a method for testing equipment under outdoor conditions according to the present invention will be described.

First, the product to be verified, such as a preheater, is installed in a designated location and the system is operated through the control unit. The control unit checks the initial temperature, etc. and begins initial settings. That is, the temperature of the louver blade and thermal oil is measured, and the thermal oil is heated to the set temperature using an electric heater.

Then, after sealing the outdoor air condition area, the first cooler is operated. The control unit checks the temperature inside the outdoor condition area and operates the second cooler when it reaches -30℃. At this time, according to the preset environment, if an environment of about -52°C is sufficient, the control unit does not operate the third cooler, and if an environment lower than -52°C is required, the control unit operates the third cooler.

At this time, the measurement data of the louver blade temperature sensor installed on the louver blade is transmitted to the control unit, and when the temperature by the louver blade temperature sensor falls below the set temperature, the control unit operates the water spray device to spray water mist onto the louver blade.

Then, ice forms around the louver blades, and after a certain period of time, the control unit operates the oil pump to begin circulation of thermal oil. As the thermal oil circulates, the ice begins to melt as the thermal oil passes inside the louver blades of the preheater.

At this time, the temperature of the louver blade is transmitted to the control unit by the louver blade temperature sensor, so the user can observe the temperature of the louver blade in real time.

Next, an embodiment in which air heating ability can be tested will be described with reference to FIG. 4. However, description of parts that are the same as those in the previous embodiment will be omitted.

The equipment test device under outdoor conditions according to this embodiment is similarly divided into an outdoor condition area (100), an equipment area (200), and a test area (300).

However, the heater 600 according to this embodiment is provided in the test area 300 because there is no reason to expose it to the outside air.

Both the inlet and outlet of the air duct are provided in the outside air condition area 100, and the air duct passes through the device area 200 and the test area 300 and returns to the outside air condition area 100.

A supply temperature sensor 510 for measuring the temperature of air supplied to the pre-heater is installed in the air duct connected to the heater 600 in the outside air condition area 100.

Additionally, the heater is provided with a first heat exchange unit 650 and a second heat exchange unit 660, and the sucked air sequentially passes through the first heat exchange unit 650 and the second heat exchange unit 660.

An inlet temperature sensor 520 for temperature correction of the heater is provided before the first heat exchange part of the heater in the air flow. Additionally, an internal temperature sensor 530 is provided between the first heat exchange unit 650 and the second heat exchange unit 660. And, after the second heat exchange unit 660, an outlet temperature sensor 540 is provided for heater temperature correction.

Meanwhile, the oil line through which the thermal oil moves branches from the preheater into two branches and passes through the first heat exchanger and the second heat exchanger independently. And, after passing through the first heat exchanger and the second heat exchanger, the oil lines are merged again.

The control unit 310 receives temperature data from the supply temperature sensor 510, inlet temperature sensor 520, internal temperature sensor 530, and outlet temperature sensor 540 to determine air flow speed, air volume, and thermal oil temperature. By adjusting, the air heating status and flow amount are controlled.

For example, if the temperature of the air taken in from the outdoor condition area is -52℃, the temperature of the discharged air is controlled to be 5℃.

Although the present invention has been described above with reference to embodiments, those skilled in the art can make various modifications and modifications to the present invention without departing from the spirit and scope of the present invention as set forth in the following patent claims. You will understand that you can change it.

100: Outdoor condition area 110: First cooler
120: 2nd cooler 130: 3rd cooler
140: Outside temperature sensor 150: Water spray device
200: device area 210: oil tank
220: Electric heater 230: Oil pump
300: Test area 310: Control unit
350: Circulation fan 400: Preheater
410: Louver blade 430: Louver blade temperature sensor
510: Supply temperature sensor 520: Inlet temperature sensor
530: Internal temperature sensor 540: Outlet temperature sensor
600: Heater 650: First heat exchange unit
660: Second heat exchange unit

Claims (7)

An outdoor condition area equipped with an outdoor condition generating device that generates outdoor conditions to be tested;
A preheater installed in the outdoor air condition area to preheat the outdoor air;
an apparatus area where a heating device for heating the preheater is installed;
An equipment test device under outdoor conditions comprising a test area in which a control unit for controlling the external air condition area and the device area is installed. According to paragraph 1,
The outdoor air condition generating device is an equipment test device under outdoor air conditions, characterized in that a plurality of coolers are installed to gradually cool the outdoor air condition zone. According to paragraph 1,
The outdoor condition area is equipped with a water spray device that sprays water into the preheater to freeze the preheater, and the preheater is equipped with a temperature sensor for temperature measurement. Equipment test device under outdoor air conditions . According to paragraph 1,
The heating device includes an oil tank storing thermal oil;
An oil pump for circulating the thermal oil stored in the oil tank;
An equipment test device under outdoor conditions, comprising an electric heater for heating the thermal oil. According to paragraph 1,
An equipment test device under outdoor conditions, characterized in that the test area is equipped with a circulation fan to circulate air that has passed through the preheater. An outdoor condition area equipped with an outdoor condition generating device that generates outdoor conditions to be tested;
an air duct for sucking air from the outside air condition area;
An equipment area where a heating device for heating the heater is installed;
It includes a control unit for controlling the external air condition area and the device area, and a test area where a heater that changes the temperature of the air passing through the air duct is installed,
An equipment test device under outdoor conditions in which sensors are installed to measure air temperature before and after the heater according to the air flow. Controlling the outdoor air condition area to a set temperature by an outdoor condition generating device that generates outdoor air conditions to be tested;
Freezing the surface of the preheater by spraying water using a water spray device toward the preheater provided in the outdoor condition area;
Heating the preheater using a heating device installed in an equipment area separated from the outdoor condition area;
Controlling the preheater by a control unit installed in the outdoor condition area and the test area partitioned from the device area;
An equipment testing method under outdoor conditions that includes measuring the temperature of the preheater by a temperature sensor installed in the preheater.