KR20210072540A - Apparatus for testing an endurance of a air control valve - Google Patents

Abstract

The present invention relates to an apparatus for testing durability of an air control valve, which comprises: first and second heat-resistant hoses having one end connected respectively to an outlet and an inlet of a temperature and humidity chamber to form a flow path where hot and humid air can flow; a housing surrounding the other ends of the first and second heat-resistant hoses such that the other ends are supported to be apart by a certain distance; a product holder supporting a flow path portion of an air control valve interposed between and connected to the first heat-resistant hose and the second heat-resistant hose to enable the hot and humid air to flow in the housing; an air circulating means installed at one side of the first heat-resistant hose to drive the hot and humid air in the temperature and humidity chamber to circulate through the first and second heat-resistant hoses; and a plurality of halogen lamps installed at one side of the inner wall of the housing to compensate temperature when heat loss occurs in the housing. Accordingly, hot and humid air is exposed to only an APC or ACV flow path in a product for a hydrogen fuel cell vehicle to enable a user to verify and evaluate durability of a product in the state suitable to a real vehicle-mounted environment.

Description

Endurance testing device of an air control valve {Apparatus for testing an endurance of a air control valve}

The present invention relates to an apparatus for testing the durability of an air control valve, and more particularly, by exposing high-temperature and high-humidity air only to an air pressure control valve (APC) or air control valve (ACV) passage part, which is an air control valve for a hydrogen fuel cell vehicle. It relates to the durability test device of the air control valve that can verify the durability.

When the product durability test is conducted in a general high temperature and high humidity environment, it cannot simulate an environment similar to the vehicle installation environment.

Although the actual vehicle air control valve 10 has a structure such that high temperature and high humidity air flows only through the flow path portion indicated by the dotted line in FIG. 1 , the conventional air control valve 10 in the temperature and humidity chamber 1 as shown in FIG. 2 . ), there was a problem that durability verification (evaluation) was unreliable because accurate durability test data could not be extracted because the durability test was carried out for a long time in a harsh environment with high temperature and humidity.

That is, as shown in FIG. 3 , the APC 12 , which is the air control valve 10 applied to the endurance test apparatus for testing, adjusts the rear end pressure of the stack 20 of the hydrogen fuel cell vehicle to increase the efficiency of the stack 20 . The ACV 14 is mounted at the front end of the stack 20 so as to increase the efficiency of the stack 20 by adjusting the front air of the stack 20 .

In this way, the durability test by simulating the curved shape of the flow path portion of the air control valve 10 in which the air passing through the ACV 14, the humidifier 30, and the stack 20 exits through the bore 12a of the APC 12 A suitable installation environment is required.

At this time, high-temperature and high-humidity air (90°C, 90%) flows only in the APC (12) and ACV (14) flow passages of the air control valve (10), and the outside of the APC (12) and ACV (14) is exposed to a humid environment. It is important to configure the durability test device of the air control valve to suit the actual vehicle environment so that it does not occur.

Republic of Korea Patent Publication No. 1567980 (2015.11.04.) Republic of Korea Patent Publication No. 1494167 (2015.02.11.)

The object of the present invention was proposed to solve the problems in consideration of the existing problems. By exposing high-temperature and high-humidity air only to the APC or ACV flow path part of a product for a hydrogen fuel cell vehicle, the durability of the product is verified in a state suitable for the actual vehicle mounting environment. It is to provide a durability test device for air control valves that can (evaluate).

In an apparatus for testing durability of an air control valve according to an embodiment of the present invention for solving the above technical problem, one end is respectively connected to an outlet and an inlet of a temperature and humidity chamber to form a flow path through which air flows. A hose, a housing that surrounds the other ends of the first and second heat-resistant hoses to be supported at a predetermined distance, a product holder installed vertically in the center of the inner bottom of the housing to hold an air control valve; in the first and second heat-resistant hoses and a distribution hose simulating the curved shape of the flow path portion of the air control valve while connecting the flow path portion of the air control valve, and installed on one side of the first heat-resistant hose to remove the air in the temperature and humidity chamber It characterized in that it comprises an air circulation means for driving to be circulated through the first and second heat-resistant hose.

As another embodiment, a humidity sensor for sensing the humidity in the air circulated into the interior of the housing through the temperature-humidity chamber is installed on one side of the first and second heat-resistant hoses of the present invention, respectively.

As another embodiment, it is characterized in that a heat-resistant door is installed in front of the housing of the present invention.

As another embodiment, it is characterized in that a drain valve is installed on one side of the bottom of the housing of the present invention so that the condensed water accumulated in the housing is automatically drained to the outside and collected.

As another embodiment, a pair of left and right supports for supporting the first heat-resistant hose and the second heat-resistant hose inserted through both sides of the housing at a predetermined height are installed on the inner bottom of the housing of the present invention, the left and right It is characterized in that a pair of left and right distributors each formed with a plurality of flow passages are installed at a predetermined height of the pair of supports so that air from the first and second heat-resistant hoses is dispersed in various directions.

As another embodiment, it is characterized in that the distribution hoses are respectively connected to the plurality of flow passages of the pair of left and right distributors of the present invention.

As another embodiment, the plurality of distribution hoses of the present invention are characterized in that they have a predetermined length and diameter so as to correspond to the curved passage portion of the air control valve.

As another embodiment, the product holder of the present invention is installed to stand vertically in the center of the inner floor of the housing, and a plurality of clamps for holding a plurality of air control valves in the front to be detachably attached at regular intervals up and down are installed. characterized.

As another embodiment, the air circulation means of the present invention includes a fan installed to be connected to a flow path on one side of the first heat-resistant hose inside the housing, a motor installed on an external side of the housing, and the inside of the housing. It is characterized in that it is composed of a bevel gear that transmits driving force by connecting the rotation center of the fan and the rotation center of the motor.

As another embodiment, the ceiling of the housing of the present invention is characterized in that the halogen lamp for compensating the temperature when heat loss occurs in the housing is installed.

As another embodiment, the air control valve of the present invention is characterized in that it is an APC (Air Pressure Control Valve) or ACV (Air Control Valve).

The durability test apparatus of the air control valve of the present invention is a durability test of an air control valve suitable for an actual vehicle environment so that high temperature and high humidity air flows only in the APC and ACV flow passages of the air control valve and is not exposed to a humid environment outside the APC and ACV Since it is a structure implemented with a device, it has the advantage of increasing the reliability of durability test verification (evaluation).

In addition, the durability testing apparatus of the air control valve of the present invention has the advantage of being able to simultaneously test the durability of many air control valves in a short time by mounting a plurality of APC or ACV air control valves on the product holder installed in the housing.

In addition, the durability test device of the air control valve of the present invention compensates for the temperature when heat loss occurs due to the on/off operation of the halogen lamp installed on the ceiling in the housing, and the drain on the bottom side of the housing connected to the humidity sensor installed in the heat-resistant hose. By automatically draining the condensed water accumulated on the bottom of the housing by the on/off operation of the valve, the temperature and humidity in the housing 120 can be maintained constant, so there is an advantage that a uniform durability test is possible.

1 is an exemplary diagram schematically illustrating a state in which high-temperature and high-humidity air flows only in a flow path portion of an air control valve in an actual vehicle environment;
Figure 2 is a schematic illustration of a state of exposing high-temperature and high-humidity air to the entire air control valve in a conventional temperature-humidity chamber to perform a durability test;
3 is a configuration diagram of a system around a stack of a hydrogen fuel cell vehicle in which APC and ACV of an air control valve for endurance test are installed;
4 is a front view of an apparatus for durability testing of an air control valve according to the present invention;
5 is a plan view of an apparatus for durability testing of an air control valve according to the present invention;
6 is a detailed configuration diagram of an apparatus for durability testing of an air control valve according to the present invention;
7 is a schematic view for explaining the operating mechanism of the durability test apparatus of the air control valve according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings 4 to 7 . Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. Accordingly, the shape of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same components in each drawing are sometimes illustrated with the same reference numerals. Detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

For reference, the same reference numerals and the same names are given to the APC 12 and the ACV 14 of the conventional air control valve 10 applied to the configuration according to the embodiment of the present invention, and the redundant description thereof will be omitted. .

An apparatus for testing the durability of an air control valve according to an embodiment of the present invention, one end is respectively connected to the outlet and the inlet of the temperature-humidity chamber 100 as shown in FIGS. 4 to 7 to form a flow path through which high-temperature and high-humidity air flows. The first and second heat-resistant hoses 110 and 112 and the first and second heat-resistant hoses 110 and 112, which surround the other end of the heat-resistant hoses 110 and 112, are supported at a predetermined distance from each other. The product holder 130 installed vertically in the center of the inner floor of the 120 to hold the air control valve 10, and the first and second heat-resistant hoses 110 and 112 and the air in the housing 120 The distribution hose 128 simulating the flow path portion curved shape of the air control valve 10 while connecting the flow path portion of the control valve 10, and installed on one side of the first heat-resistant hose 110, the temperature and humidity chamber 100 ) and an air circulation means 140 for driving the high-temperature and high-humidity air to circulate through the first and second heat-resistant hoses 110 and 112, and is installed on one side of the inner wall of the housing 120 to the inside of the housing 120. A plurality of halogen lamps 150 for compensating for the temperature when heat loss occurs, and installed on the outer side of the housing 120 to control the operation of the air circulation means 140 and the halogen lamp 150 while displaying the air temperature It consists of including a control board (160).

That is, the temperature and humidity chamber 100 is made of a rectangular hexahedron, and one end of the first heat-resistant hose 110 is connected to the center of the right side, and one end of the second heat-resistant hose 112 is connected to the center of the left side. has been

Humidity sensor for sensing the humidity in the high-temperature and high-humidity air circulated through the temperature-humidity chamber 100 at the end accommodated in the interior of the housing 120 with respect to one side of the first and second heat-resistant hoses 110 and 112 114 are provided respectively.

A heat-resistant door is installed in the front of the housing 120, and a drain valve 122 is installed so that the condensed water accumulated in the housing 120 is automatically drained to the outside and collected.

On the inner bottom of the housing 120, a pair of left and right supports for supporting the first heat-resistant hose 110 and the second heat-resistant hose 112 inserted through both sides of the housing 120 at a predetermined height, respectively ( 124) is installed, and at a predetermined height of the pair of left and right supporters 124, a plurality of flow passages 126a so that hot and humid air from the first and second heat-resistant hoses 110 and 112 are dispersed in various directions. A pair of left and right distributors 126 each formed in are installed, and a plurality of air control valves supported on one side of the product holder 130 are provided on the plurality of flow passages 124a of the pair of left and right distributors 126 ( 10) A plurality of distribution hoses 128 are connected to each other to be connected to the flow passage.

At this time, the plurality of distribution hoses 128 are made of a predetermined length and diameter to correspond to the curved passage portion of the air control valve 10 .

The product holder 130 is installed so as to stand vertically in the center of the inner bottom of the housing 120, and a plurality of clamps holding the plurality of air control valves 10 at regular intervals up and down at the front so that they can be detached from each other. (132) is installed.

The air circulation means 140 includes a fan 142 installed to be connected to one side flow path of the first heat-resistant hose 110 inside the housing 120 , and a motor installed on one side outside the housing 120 . It is composed of a 144 and a bevel gear 146 that transmits a driving force by connecting the rotation center of the fan 142 and the rotation center of the motor 144 at a right angle inside the housing 120 .

It is preferable that a plurality of halogen lamps 150 are installed at regular intervals along the edge of the ceiling of the housing 120 .

The control board 160 has a function of displaying the temperature sensed by the humidity sensor 114 , a function of controlling on/off of the drain valve 122 , and a motor 144 of the air circulation means 140 . ) to turn on/off the drive or control the rotation speed, and to automatically adjust the temperature to compensate when the heat loss in the housing 120 occurs below the set temperature while turning the halogen lamp 150 on/off It is configured to have a function, a function to display the temperature in the housing 120 in real time, and a function to cut off the power when the motor 144 and the halogen lamp 150 are overheated.

By using the durability test device of the air control valve of the present invention configured as described above, high temperature and high humidity air is exposed only to the flow path portion of the APC 12 or ACV 14, which is the air control valve 10, so that it is suitable for the actual vehicle mounting environment. In order to verify (evaluate) the durability of the furnace, first, after fixing the air control valves 10 for each of the plurality of clamps 132 on the side of the product holder 130 in the housing 120, each of the air control valves 10 is placed in the flow path part. A pair of left and right distribution hoses 128 respectively connected to the first heat-resistant hose 110 and the second heat-resistant hose 112 via the distributor 126 are connected to correspond to each other.

After the APC 12 or ACV 14 of the air control valve 10 is mounted on the product holder 130 in this way, the heat-resistant door of the housing 120 is closed and the air circulation means ( When the motor 144 of 140 is driven, the motor 144 rotates the fan 142 connected to the power by the bevel gear 146 so that the high-temperature and high-humidity air in the temperature and humidity chamber 100 is transferred to the first heat-resistant hose ( The flow path portion of the APC 12 or ACV 14, which is the air control valve 10 mounted on the product holder 130 through the distributor 126 and the plurality of distribution hoses 128 in the housing 120 through 110). Only high temperature and humid air (90℃, 90%) is supplied.

At this time, the hot and humid air (90° C., 90%) supplied only to the flow path part of the APC 12 or ACV 14, which is the air control valve 10, is in the flow path part opposite to the APC 12 or ACV 14. It is discharged to the second heat-resistant hose 112 through the distribution hose 128 connected to the part and goes through a circulation process in which it is introduced into the temperature and humidity chamber 100 again.

Therefore, according to the present invention, high-temperature and high-humidity air flows only in the APC (12) and ACV (14) passage portions of the air control valve (10), and the APC (12) and ACV (14) are not exposed to a humid environment outside the actual vehicle. Since it is a structure that implements the durability test device of the air control valve suitable for the environment, it has the advantage of increasing the reliability of durability test verification (evaluation)

In addition, after mounting several APC 12 or ACV 14, which are air control valves 10, on the product holder 130 installed in the housing 120, the first and second heat-resistant hoses 110 and 112. Since it is a structure that can simultaneously connect only the APC (12) or ACV (14) flow path part of a plurality of air control valves 10 to a plurality of distribution hoses 128 via a pair of left and right distributors 126, in a short time There is an advantage in that many air control valves 10 can be tested simultaneously for durability.

In addition, a plurality of halogen lamps 150 are installed on the ceiling in the housing 120 , a drain valve 122 is installed at the bottom of the housing 120 , and the first and second heat-resistant hoses 110 and 112 are installed. Since the humidity sensor 114 is installed on one side of the end, each of which is controlled and displayed by the control board 160 , when heat loss occurs in the housing 120 , a constant temperature is generated by the automatic on/off operation of the halogen lamp 150 . temperature and humidity in the housing 120 by automatically draining the condensed water accumulated at the bottom of the housing 120 to the outside by the on/off operation of the drain valve 122 associated with the humidity sensor 114. Since it can be kept constant, a uniform durability test is possible.

On the other hand, the present invention is not limited to the above-described embodiments, but can be implemented with modifications and variations within the scope without departing from the gist of the present invention, and the technical idea to which such modifications and variations are applied also falls within the scope of the following claims. have to see

10: air control valve 12: APC
12a: bore 14: ACV
20: stack 30: humidifier
100: temperature and humidity chamber 110, 112: first and second heat-resistant hose
114: humidity sensor 120: enclosure
122: drain valve 124: support
126: distributor 126a: euro part
128: distribution hose 130: product holder
132: clamp 140: air circulation means
142: fan 144: motor
146: bevel gear 150: halogen, etc.
160: control board

Claims (11)

First and second heat-resistant hoses 110 and 112 each having one end connected to the outlet and the inlet of the temperature and humidity chamber 100 to form a flow path for air to flow;
The first and second heat-resistant hoses (110, 112) and the other end of the enclosure 120 is wrapped so that it is supported at a predetermined distance and;
a product holder 130 installed vertically in the center of the inner bottom of the housing 120 to hold the air control valve 10;
A distribution hose simulating the curved shape of the flow path portion of the air control valve 10 while connecting the first and second heat-resistant hoses 110 and 112 and the flow path portion of the air control valve 10 in the housing 120 . (128) and
It is installed on one side of the first heat-resistant hose 110 and includes an air circulation means 140 for driving the air in the temperature-humidity chamber 100 to be circulated through the first and second heat-resistant hoses 110 and 112. Durability test device of the air control valve, characterized in that. The method according to claim 1,
On one side of the first and second heat-resistant hoses 110 and 112, a humidity sensor 114 for sensing the humidity in the air circulated inside the housing 120 through the temperature-humidity chamber 100 is installed, respectively. Durability testing device for air control valves. 3. The method according to claim 2,
An apparatus for testing durability of an air control valve, characterized in that a heat-resistant door is installed in front of the housing (120). 4. The method according to claim 3,
Durability testing apparatus of an air control valve, characterized in that a drain valve 122 is installed on one side of the bottom of the housing 120 so that the condensed water accumulated in the housing 120 is automatically drained to the outside and collected. The method according to claim 1,
On the inner bottom of the housing 120, a pair of left and right supports for supporting the first heat-resistant hose 110 and the second heat-resistant hose 112 inserted through both sides of the housing 120 at a predetermined height, respectively ( 124) is installed,
At a predetermined height of the pair of left and right supports 124, a pair of left and right distributors each formed with a plurality of flow passages 126a so that air is dispersed in various directions from the first and second heat-resistant hoses 110 and 112 ( 126), the durability test device of the air control valve, characterized in that installed. 6. The method of claim 5,
A device for testing the durability of an air control valve, characterized in that a distribution hose (128) is connected to the plurality of flow passages (124a) of the left and right pair of distributors (126). 7. The method of claim 6,
The plurality of distribution hoses (128) are air control valve durability testing apparatus, characterized in that made of a predetermined length and diameter to correspond to the curved flow path portion of the air control valve (10). The method according to claim 1,
The product holder 130 is installed to stand vertically in the center of the inner bottom of the housing 120,
Durability testing apparatus of an air control valve, characterized in that a plurality of clamps 132 are installed in the front so that a plurality of air control valves (10) can be attached and detached at regular intervals up and down. The method according to claim 1,
The air circulation means 140,
A fan 142 installed inside the housing 120 to be connected to one side flow path of the first heat-resistant hose 110;
A motor 144 installed on one side of the outside of the housing 120,
Durability testing apparatus of an air control valve, characterized in that it comprises a bevel gear (146) that transmits driving force by connecting the rotation center of the fan (142) and the rotation center of the motor (144) inside the housing (120). The method according to claim 1,
A device for durability testing of an air control valve, characterized in that a halogen lamp (150) is installed on the ceiling of the housing (120) to compensate for the temperature when heat loss occurs in the housing (120). The method according to claim 1,
The air control valve 10 is an air pressure control valve (APC) or an air control valve (ACV), characterized in that the durability test apparatus of the air control valve.

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