KR100913757B1 - Field operational equipment with contamination level measurement device - Google Patents

Abstract

A field operational apparatus with an internal contamination level measurement device is provided to facilitate repair and maintenance by measuring the internal contamination level of the field operational apparatus. A field operational apparatus with an internal contamination level measurement device comprises a reflecting mirror(113), a window(115), a reflectometer, a housing(111), a plurality of openings(112), and a ventilation fan(117). The air inside the apparatus is flowed into the housing through a part of the openings according to the operation of the ventilation fan. A plurality of openings are formed at the side wall of the housing. The air inside the apparatus is exhausted through the ventilation and a part of the openings. The reflecting mirror absorbs impurity contained in the air passing through the inner structure of the housing.

Description

Outdoor Operating Equipment with Internal Pollution Level Measuring Equipment {FIELD OPERATIONAL EQUIPMENT WITH CONTAMINATION LEVEL MEASUREMENT DEVICE}

The present invention relates to a device for measuring the internal pollution degree of equipment operated in the open air, such as the sea or the beach, in particular, thermal equipment such as infrared optical system.

In general, optical equipment operating outdoors or at sea is frequently exposed directly to external seawater, and even if it is not directly exposed to seawater, it may be damaged if it is exposed to corrosion by prolonged exposure to salts contained in the air. In addition, even if temporarily exposed to salinity, if left for a long time may cause damage to the equipment. Therefore, equipment that is operated outdoors, especially at sea or on the beach, is periodically inspected for contamination and periodically cleaned, painted or plated to prevent corrosion or damage.

The pollution test of the outdoor operation equipment is generally performed by measuring the salinity of the surface of the structure, and after absorbing the salt on the surface of the structure using a sample paper or a salt extract, the sample that absorbs the salt The salinity of the surface of the structure is examined by measuring the electrical resistance of the paper or saline extract.

However, inspection and repair to prevent corrosion and damage of outdoor operation equipment is limited to the external structure of the equipment. In other words, the inside of the equipment containing expensive components such as optical devices can not measure the internal contamination by adding sample paper or salt extract. Moreover, in the case of the optical device, since it can be easily contaminated even with fine foreign matter, it is not preferable to add sample paper or a salt extract solution to measure the degree of internal contamination thereof. Therefore, to measure the internal pollution level of the equipment, it is necessary to disassemble the equipment or to clean the equipment on a regular basis regardless of the internal contamination. However, simply disassembling the equipment just for contamination measurement creates unnecessary maintenance requirements. Moreover, although it may contribute to keeping the optical device in a steady state, regular disassembly and cleaning of the equipment also causes unnecessary maintenance demand.

Accordingly, the present invention is to provide an internal pollution degree measuring device that can facilitate the measurement of the internal pollution degree of the outdoor operation equipment.

In addition, the present invention is to contribute to suppress the occurrence of unnecessary maintenance demand by installing the internal pollution degree measuring apparatus in the outdoor operation equipment.

Therefore, in the outdoor operation equipment,

A reflector mounted inside the equipment to adsorb impurities inside the equipment;

A window mounted on the equipment to shield the inside and the reflector of the equipment from the outside and to view the reflector from the outside of the equipment; And

An internal contamination measuring device including a reflectance meter for measuring the reflectance of the reflector through the window from the outside of the equipment.

At this time, the internal pollution measuring device,

A housing installed inside the equipment, the one surface of which is opened to mount the window, and the reflection mirror mounted to face the window;

A plurality of openings formed in sidewalls of the housing; And

And a blower fan for discharging air inside the housing through some of the openings,

As the blower fan is operated, air inside the equipment is introduced into the housing through the remaining part of the openings and is discharged through the blower fan and some of the openings, and the reflector passes through the inside of the housing. To adsorb impurities contained in the air.

In addition, the internal contamination measurement device may further include a gasket interposed between the portion of the housing and the equipment in close contact with each other along the edge of the housing.

In addition, the internal pollution degree measuring device further includes a bracket attached to the outside of the equipment, the reflectance meter may be mounted to the bracket.

In addition, the sensor may further include a temperature sensor, a pressure sensor, and a humidity sensor mounted on the housing.

The internal pollution degree measuring device having the above configuration has an advantage of easily measuring the internal pollution level of outdoor operation equipment having expensive equipment such as an optical device. That is, by installing a reflector that adsorbs impurities inside the outdoor operating equipment, the inspector can easily measure the internal contamination of the outdoor operating equipment by inspecting the reflectance of the reflector using a reflectometer. In addition, since it is possible to determine whether the reflector is contaminated even by the naked eye even without using the reflectance meter, there is an advantage that it is easy to determine whether or not the internal contamination of the outdoor operation equipment.

Moreover, since the internal contamination of the outdoor operation equipment can also be measured by the reflectance meter or the naked eye outside of the outdoor operation equipment, it is not necessary to disassemble the equipment for simple contamination measurement, and the regular disassembly of the equipment without the internal pollution degree, By reducing the cleaning work, it is possible to suppress the occurrence of maintenance demand.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram showing the outdoor operating equipment 10 equipped with an internal pollution degree measuring apparatus 101 according to a preferred embodiment of the present invention, Figure 2 is a view showing the internal pollution degree measuring apparatus 101 shown in FIG. It is a cross section.

As shown in Figure 1 and 2, the internal pollution degree measuring apparatus 100 according to a preferred embodiment of the present invention includes a reflector 113 and a window 115 mounted to the outdoor operation equipment, and also, reference numeral Although it is indicated by a reference numeral '103' separate from '101', the internal pollution degree measuring apparatus 101 is a reflectance measuring instrument for inspecting the reflectance of the reflector 113 from the outside of the outdoor operation equipment 10 ( 103). In this case, the reflectance measuring instrument 103 does not necessarily need to be used, and the degree of contamination of the reflector 113 may be measured visually. However, it may be desirable to use the reflectance measuring instrument 103 to more accurately determine the degree to which the internal cleaning of the outdoor operating equipment 10 is required.

In addition, as the reflectance of the reflector 113 measured by the reflectance measuring instrument 103 decreases, it can be seen that the internal pollution degree of the outdoor operation equipment 10 increases, and when the internal cleaning is required, the outdoor operation is performed. It will be apparent to those skilled in the art that the operation environment of the equipment 10, the purpose of use of the outdoor operation equipment 10 (eg, long distance observation), and the required viewing sharpness may be appropriately set.

Referring to FIG. 2, the reflector 113 is mounted inside the outdoor operating equipment 10, and the window 115 is mounted on the outdoor operating equipment 10 to allow the outdoor operating equipment 10 to be installed from the outside. The interior and the reflector 113 will be shielded. In this case, the reflector 113 may be projected from the outside through the window 115, and the reflectance measuring instrument 103 speculates the reflector 113 through the window 115. The reflector 113 has a low reflectance by adsorbing foreign matter or salt such as dust. The reflectance measuring instrument 103 detects the degree of internal contamination of the outdoor operation equipment 10 by measuring the degree to which the reflectance of the reflector 113 is lowered.

At this time, as mentioned above, it is not necessary to inspect whether the reflector 113 is contaminated only by the reflectance measuring instrument 103, and the inspection may be performed with the naked eye. However, in order to determine a maintenance time point such as internal cleaning, it is necessary to measure a more accurate internal pollution degree, and by using the reflectance measuring device 103, more accurate pollution can be detected than visually discriminated.

On the other hand, the internal pollution degree measuring device 101 is provided in the form of a module by having a housing 111 can facilitate the installation of the reflector 113 and the window 115. The housing 111 is mounted on the outdoor operation equipment 10 to extend into the outdoor operation equipment 10, and one surface of the housing 111 is manufactured to be open to mount the window 115. By mounting the window 115, the inside of the housing 111 is shielded from the outside. The reflector 113 may be mounted inside the housing 111 while facing the window 115 and may project the reflector 113 through the window 115 from the outside.

In mounting the housing 111, a gasket 119 is provided between the outdoor operating equipment 10 and a close contact portion of the housing 111 along a circumference of the housing 111, thereby providing the housing 111. And airtightness between the outdoor operating equipment 10.

A plurality of openings 112 may be formed in the housing 111 to allow air inside the outdoor operating equipment 10 to flow into the housing 111, and a blower fan 117 may be installed. The air inside the outdoor operation equipment 10 may be forced to circulate through the inside of the housing 111.

The openings 112 are formed on both sidewalls of the housing 111, preferably around the housing 111, so that the openings 112 may be formed in any direction between the reflector 113 and the window 115. Air may flow into the interior. However, when the blowing fan 117 is installed, the openings 112 are preferably formed on both sidewalls of the housing 111 facing each other in order to uniformly introduce air into the housing 111. .

The blower fan 117 is installed adjacent to some of the openings 112 formed in the housing 111 to allow the air inside the housing 111 to flow out through the openings 112. As the air inside the housing 111 flows out, the air inside the outdoor operating equipment 10 is introduced into the housing 111 through the remaining openings 112. While the air inside the outdoor operating equipment 10 passes through the housing 111, impurities such as foreign matter or salt contained therein are adsorbed to the reflector 113. Thus, as the operating time of the outdoor operating equipment 10 continues, the higher the foreign matter and salt content in the air of the environment in which the outdoor operating equipment 10 is installed, the lower the reflectance of the reflector 113.

4 is a graph illustrating a relationship between the reflectance of the reflector 113 and the degree of internal contamination. As shown in FIG. 4, the reflectance of the reflector 113 and the degree of internal contamination of the outdoor operating equipment 10 are inversely related, which is somewhat dependent on the characteristics of the actual product, more specifically, the reflector 113. Note that it may appear different. Since the characteristics of the reflector are determined during the manufacturing process of the reflector, an appropriate reflector may be selected and configured according to the specifications required by the internal pollution degree measuring apparatus 101.

The characteristics of the reflector as described above are provided to the manufacturer or the operator of the outdoor operation equipment equipped with the internal pollution degree measuring device 101, the operator periodically measures the reflectance of the reflector 113 by the outdoor operation only The internal maintenance and cleaning timing of the equipment 10 can be determined. That is, according to the characteristics of the reflector 113 provided to the operator and the reflectance of the inspected reflector 113, the operator may know the internal pollution degree of the outdoor operating equipment 10, and the operation of the outdoor operating equipment 10. It is possible to maintain the outdoor operating equipment 10 below the required pollution degree.

On the other hand, by installing a temperature sensor, a pressure sensor, a humidity sensor, etc. in the interior of the outdoor operating equipment 10, specifically, the housing 111 or the periphery thereof, the installation environment of the outdoor operating equipment 10 from time to time You can check it.

3 is a cross-sectional view showing an internal pollution measuring apparatus according to another preferred embodiment of the present invention. Internal pollution degree measuring apparatus according to another preferred embodiment of the present invention is different from the previous embodiment in that the reflectance measuring device 103 is also mounted on the outdoor operating equipment (10). In the following description of the present embodiment, the same reference numerals as those of the previous embodiment or the same reference numerals as those of the previous embodiment may be omitted, and detailed descriptions thereof may also be omitted. do.

The internal pollution degree measuring apparatus 101 further includes a bracket 131 mounted to the housing 111. The bracket 131 is attached to the outside of the housing 111 and the reflectance meter 103 is installed on the bracket 131. Thus, the operator does not need to carry the reflectance measuring device 103 separately. In installing the reflectance measuring device 103 using the bracket 131 as described above, the bracket 131 may also be installed to be located inside the outdoor operation equipment 10.

That is, by forming the bracket 131 integrally with the housing 111 to be disposed inside the outdoor operation equipment 10, the internal pollution degree measuring device 101 may be minimized from protruding to the outside. .

In the foregoing detailed description of the present invention, specific embodiments have been described. However, it will be apparent to those skilled in the art that various modifications can be made without departing from the scope of the present invention.

1 is a view schematically showing the outdoor operating equipment equipped with an internal pollution degree measuring apparatus according to a preferred embodiment of the present invention,

FIG. 2 is a cross-sectional configuration diagram illustrating an internal pollution degree display device of the internal pollution degree measurement device illustrated in FIG. 1;

3 is a cross-sectional configuration view showing an internal pollution degree measuring apparatus according to another embodiment of the present invention;

Figure 4 is a graph showing the reflectance measurement value according to the internal pollution degree of the outdoor operating equipment.

Claims (5)

delete In outdoor equipment, A reflector mounted inside the equipment to adsorb impurities inside the equipment; A window mounted on the equipment to shield the inside and the reflector of the equipment from the outside and to view the reflector from the outside of the equipment; A reflectance meter for measuring a reflectance of the reflector through the window outside of the equipment; A housing installed inside the equipment, the one surface of which is opened to mount the window, and the reflection mirror mounted to face the window; A plurality of openings formed in sidewalls of the housing; And A blowing fan for discharging air in the housing through some of the openings, As the blower fan operates, air inside the equipment is introduced into the housing through the remaining part of the openings and is discharged through the blower fan and a part of the openings, and the reflector passes through the inside of the housing. Outdoor operation equipment having an internal pollution measurement device characterized in that the adsorbed impurities contained in the air. 3. The outdoor operating equipment of claim 2, further comprising a gasket interposed between an edge of the housing and a portion of the housing in close contact with the equipment. 3. The outdoor operating device of claim 2, further comprising a bracket attached to the outside of the equipment, wherein the reflectance meter is mounted to the bracket. According to claim 2, Outdoor operating equipment having an internal pollution degree measuring device further comprises a temperature sensor, a pressure sensor and a humidity sensor mounted on the housing.

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