KR20140045169A - Dehumidifier and image capturing device comprising the same - Google Patents

Abstract

The present invention relates to a dehumidifier and an imaging device including the same. The dehumidifier in accordance with an embodiment of the present invention includes a housing in which openings are formed on one side and the other side; a moisture absorption material arranged in the housing; a heating unit heating the moisture absorption material; a first cover connected to the housing to be able to move in order to open and close the opening on one side of the housing; and a first driving unit compulsorily moving the first cover.

Description

Dehumidifier, an imaging device having the same, and a dehumidification method of the imaging device {Dehumidifier and image capturing device comprising the same}

The present invention relates to a dehumidifying device, a photographing device having the same, and a dehumidifying method of the photographing device.

Imaging devices such as surveillance cameras are often exposed to frequent environmental changes such as temperature changes or humidity changes. In particular, surveillance cameras installed outdoors can be directly exposed to these environmental changes because they are affected by the climate.

When the photographing apparatus is exposed to an environmental change as described above, a phenomenon in which the photographing apparatus is humid can occur, and such moisture can cause fogging in the optical system of the photographing apparatus in accordance with the change in the ambient temperature. If fogging occurs in the photographing apparatus, the photographed image may be blurred, so that the function of the photographing apparatus may be seriously damaged.

In order to prevent the penetration of moisture into the photographing apparatus, a lot of efforts are made to seal it, but there is a limit to completely block the penetration of moisture in spite of such sealing.

In order to solve the above problems, an embodiment of the present invention provides a dehumidifying device and a photographing device having the dehumidifying device.

A dehumidifying device according to an embodiment of the present invention includes: a housing having an opening formed at one side and the other side; a hygroscopic material disposed inside the housing; a heating unit for heating the hygroscopic material; A first cover movably coupled to the housing so as to open and close the first cover, and a first driver for forcibly moving the first cover.

Further, the heating portion is disposed on both sides of the moisture absorbent, and at least one through-hole may be formed.

The dehumidifying device may further include a second cover movably coupled to the housing so as to open and close an opening on the other side of the housing, and a second driving unit for forcibly moving the second cover.

The dehumidifying device may further include a fan disposed on at least one of the one side or the other side of the housing to forcibly flow air around the opening on one side or the other side of the housing.

According to another aspect of the present invention, there is provided a photographing apparatus comprising: a case for partitioning a space therein; a camera unit disposed in the case and having an optical system; and the dehumidifying device disposed in the case, In the dehumidifying device, an opening at one side of the housing is disposed inside the case, and an opening at the other side of the housing is disposed outside the case.

The photographing apparatus may further include a hygrometer for measuring the humidity inside the case.

According to another aspect of the present invention, there is provided a method of drying a photographing apparatus, comprising the steps of: (a) measuring the humidity inside the photographing apparatus having an optical system therein; (b) (C) heating the moisture absorptive material in the photographing apparatus and communicating the moisture absorptive material with the outside of the photographing apparatus so that the moisture released from the moisture absorptive material is discharged to the outside of the photographing apparatus; and And blocking the communication between the hygroscopic material and the outside of the image sensing apparatus when the image sensor is dried.

The step (b) may further include interrupting the communication between the hygroscopic material and the image capturing device so as to block the moisture released from the hygroscopic material from entering the interior of the image capturing device, wherein (c ) May further include the step of communicating the hygroscopic material with the inside of the photographing apparatus.

According to the dehumidifying device of the embodiment of the present invention, the moisture inside the device in which the dehumidifying device is installed can be effectively removed. In particular, in the case of a photographing apparatus provided with such a dehumidifying device, even if exposed to the external environment, moisture does not take up moisture in the inside, so that deterioration of image quality due to fogging does not occur.

1 is a perspective view schematically showing a photographing apparatus according to an embodiment of the present invention.
2 is a schematic cross-sectional view taken along the line II-II of the photographing apparatus of FIG.
3 is a perspective view schematically showing a dehumidifying device of the photographing apparatus of FIG.
4 is a schematic cross-sectional view taken along line IV-IV of the dehumidifying device of Fig. 3;
Fig. 5 is a cross-sectional view schematically showing a partial operating state of the dehumidifier of Fig. 3; Fig.
Fig. 6 is a cross-sectional view schematically showing a modification of the dehumidifying device of Fig. 3;
7 is a flowchart schematically showing a dehumidifying method of the photographing apparatus of FIG.
FIG. 8 is a cross-sectional view schematically showing a part of the photographing apparatus of FIG. 1 for explaining a partial operating state of the photographing apparatus of FIG.
Fig. 9 is a sectional view schematically showing a part of the photographing apparatus of Fig. 1 for explaining another partial operation state of the photographing apparatus of Fig.

Hereinafter, a photographing apparatus 10 according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a perspective view schematically showing a photographing apparatus 10 according to an embodiment of the present invention, and FIG. 2 is a schematic sectional view taken along a line II-II of the photographing apparatus 10 of FIG.

1 and 2, a photographing apparatus 10 according to an embodiment of the present invention includes a case 110, a camera 140, a humidity sensor 300, and a dehumidifier 200.

The case 110 forms the outer shape of the photographing apparatus 10 and a camera 140, a humidity sensor 300 and a dehumidifying device 200 are installed therein. A light transmitting window 120 is disposed in front of the case 110 to transmit light to the camera unit 140. The case 110 is preferably sealed so that water or foreign matter can not penetrate from the outside.

The camera unit 140 includes an optical system 142, a camera body 144, and a terminal unit 146.

The optical system 142 includes at least one lens and receives light that enters the light transmitting window 120 of the case 110.

The camera body 144 has an image element (not shown) that accepts light passing through the optical system 142 and can convert the light into an electrical signal. The camera body 144 may be fixed to the case 110 by the supporting part 130.

The terminal unit 146 connects the camera body 144 inside the case 110 to the outside and transmits the video signal acquired from the camera body 144 to the outside or various control signals to the camera body 144 have.

The humidity sensor 300 is disposed inside the case 110 for measuring the humidity of the internal space of the case 110. The humidity sensor 300 may be a commonly used digital hygrometer.

The dehumidifying device 200 is for removing moisture inside the photographing apparatus 10 and is coupled to the case 110 of the camera unit 140. The dehumidifying device 200 may be disposed on the side surface or the upper surface of the photographing apparatus 10, but is preferably disposed on the lower surface of the photographing apparatus 10 so as to be protected from precipitation or foreign matter.

 Fig. 3 is a perspective view schematically showing the dehumidifying device 200 of the present embodiment, and Fig. 4 is a schematic cross-sectional view taken along line IV-IV of the dehumidifying device 200 of Fig.

3 and 4, the dehumidifier 200 includes a housing 210, a first cover 220, a first driving unit 240, a second cover 230, a second driving unit 250, A humidifying member 260, a heating unit 270, and a control unit 400. As shown in FIG.

The housing 210 defines a through space therein, and an opening is formed at one side and the other side. One opening of the housing 210 is located inside the case 110 and the other opening of the housing 210 is located outside the case 110. Hereinafter, for convenience of explanation, the inside opening of the case 110 will be referred to as an inside opening 201, and the outside opening of the case will be referred to as an outside opening 203. [ The housing 210 may include a flange portion 212 having a screw hole 213 for engagement with the case 110 of the camera portion 140.

The first cover 220 is located at the inner opening 201 of the housing 210. The first cover 220 is disposed so as to be accessible to and spaced from the inner opening 201 of the housing 210 so as to open or close the inner opening 201 of the housing 210. The first cover 220 is supported by a spring 245 so as to be accessible to the inner opening 201 of the housing 210 and the spring 245 is attached to the heating portion 270).

5 is a view schematically showing a state in which the spring 245 of the dehumidifying device 200 of this embodiment is not elastically contracted. Referring to FIG. 5, the spring 245 has a length such that the first cover 220 is spaced from the inner opening 201 of the housing 210 without being elastically deformed.

The first cover 220 described above is only exemplary and the first cover 220 may be any shape as long as it can selectively open or close the inner opening 201 of the housing 210. For example, the first cover 220 may be hinged to the housing 210, have the shape of a sliding door, or may be opened and closed in a manner that the housing 210 is screwed into the housing 210.

The first driving unit 240 is configured to forcibly move the first cover 220 so that the first cover 220 selectively opens or closes the inner opening 201 of the housing 210. In this embodiment, the first driving unit 240 may include an electromagnet having a magnetic property when receiving power. When the first driving unit 240 includes an electromagnet, the first cover 220 may include a magnetic body to receive a force in the direction of the first driving unit 240 by a magnetic force. Also, it is preferable that a magnetic pole is formed in a direction toward the first cover 220 so that the first driving unit 240 can apply a magnetic force to the first cover 220 efficiently. The first driving unit 240 receives power from a power source unit (not shown) inside or outside the image sensing apparatus 10, and the operation of the first driving unit 240 is controlled by the control unit 400. The first cover 220 is pulled by the magnetic force and closely contacts the sealing portion 242 to close the inner opening 201 of the housing 210 .

The second cover 230 is located at the outer opening 203 of the housing 210. The second cover 230 is disposed so as to be accessible to and spaced from the outer opening 203 so as to open or close the outer opening 203 of the housing 210. The second cover 230 is resiliently supported by the spring 255 and the other end of the spring 255 is installed in the heating part 270 inside the housing 210. [ The spring 255 separates the second cover 230 from the outer opening 203 of the housing 210 in the original state where no elastic deformation has occurred as shown in Fig. The second cover 230 may be hinged or slidingly coupled to the housing 210 as in the case of the first cover 220, and may be opened or closed in various forms.

The second driving unit 250 may be configured to forcibly move the second cover 230 so that the second cover 230 can selectively open or close the outer opening 203 of the housing 210. In this embodiment, the second driving unit 250 may include an electromagnet in the same manner as the first driving unit 240. At this time, the second cover 230 may include a magnetic body so as to be reacted by the electromagnet included in the second driving unit 250. Accordingly, when the second driving unit 250 generates a magnetic force, the second cover 230 is attracted by the magnetic force to be close to the sealing part 252, and closes the other opening 203 of the housing 210. The second driving unit 250 receives power from the power source unit, and the operation of the second driving unit 250 is controlled by the control unit 400.

The moisture absorbent material 260 may be disposed in the inner space of the housing 210 and may include a material capable of absorbing moisture, for example, a porous material such as silica gel.

The heating unit 270 serves to heat and dry the moisture absorbent 260 and is disposed on both sides of the moisture absorbent 260. The heating unit 270 includes a plurality of through holes 272 through which the moisture evaporated in the moisture absorption member 260 can pass through the heating unit 270. The heating unit 270 is preferably an electric resistance type heating device capable of converting electric energy into thermal energy. However, the heating unit 270 may be a heating device having a thermoelectric element, (260). Although the heating unit 270 is disposed on both sides of the hygroscopic material 260 in the present embodiment, the heating unit 270 may be disposed in various positions or shapes as long as the hygroscopic material 260 can be heated. For example, the heating portion 270 may be disposed on only one side of the hygroscopic material 260 or on the side of the hygroscopic material 260. The heating unit 270 is also supplied with power from the power source unit, and the operation of the heating unit 270 is controlled by the control unit 400.

The sealing portions 242 and 252 are for sealing the contact portion between the first and second covers 220 and 230 and the opening of the housing 210 and are disposed in the inner opening 201 and the outer opening 203 of the housing 210 . In this embodiment, the sealing portions 242 and 252 are disposed on the end side of the first driving part 240 and the end side of the second driving part 250, and may be made of elastic rubber or synthetic resin. Accordingly, when the first cover 220 is pulled by the first driving unit 240, the first cover 220 is pressed against the sealing portion 242 to effectively seal the inner opening 201 of the housing 210, 2 cover 230 is pulled by the second driving part 250 to be pressed against the sealing part 252 so that the outer opening 203 of the housing 210 can be effectively sealed.

The controller 400 controls the operation of the heating unit 270, the first driving unit 240, and the second driving unit 250, and may include a microprocessor. The control unit 400 may control the heating unit 270, the first driving unit 240 and the second driving unit 250 to operate intermittently at a predetermined interval, The first driving unit 240, and the second driving unit 250 based on the acquired humidity information.

On the other hand, the dehumidifying device 200 of the present embodiment is not limited to the above-described embodiment, and can be modified into various forms. 6 is a cross-sectional view schematically showing a modified example of the dehumidifying device 200. As shown in Fig.

Referring to FIG. 6, a dehumidifying apparatus 200 'according to another embodiment includes a housing 210, a first cover 220, a first driving unit 241, a second cover 230, a second driving unit 251, A humidifying member 260, a heating unit 270, a fan 280, and a control unit 400. The control unit 400 may include a controller (not shown). The housing 210, the first cover 220, the second cover 230, the sealing portions 245 and 255, the hygroscopic material 260, and the heating portion 270 substantially correspond to those of the dehumidifying device 200 of FIG. 3 So duplicate descriptions thereof are omitted.

The first driving part 241 and the second driving part 251 of the other type dehumidifying device 200 'may include linear actuators so that the first cover 220 and the second cover 230 can be independently opened and closed, respectively have. As the linear actuator, a linear motor such as a voice coil motor may be used, or a driving mechanism which converts a rotary motion into a linear motion by using a screw gear may be used.

The fan 280 is disposed in each of the inner opening 201 and the outer opening 203 of the housing 210 and forcibly flows the air around the fan 210 in accordance with the rotation of the fan. The fan 280 is connected to the control unit 400 so that its operation can be controlled. The operation of the fan 280 in accordance with the situation causes the moisture in the photographing apparatus 10 to be absorbed by the moisture absorbing material 260 more quickly or the moisture contained in the moisture absorbing material 260 to be absorbed more quickly Can be diffused outward. The fan 280 of the dehumidifying device 200 is disposed at the inner opening 201 and the outer opening 203 of the housing 210. However, (201) or the outer opening (203).

Next, an operation of the photographing apparatus 10 according to the present embodiment will be described with reference to the drawings.

7 is a flowchart schematically showing an operation method of the photographing apparatus 10 of the present embodiment, more specifically, an example of a dehumidifying method of the photographing apparatus 10. [

Referring to Fig. 7, the dehumidifying method of the photographing apparatus 10 according to the present embodiment includes the steps of measuring the humidity in the photographing apparatus 10 (S10), comparing the humidity in the photographing apparatus 10 with the set humidity S20), closing the inner cover and opening the outer cover (S30), heating and drying the hygroscopic material with the heating unit (S40), and closing the outer cover and opening the inner cover (S50).

8 is a view schematically showing a part of the dehumidifier 200 when the photographing apparatus 10 according to the present embodiment of the dehumidifier 200 is in a normal state. As shown in Fig. 8, the dehumidifying device 200 of the photographing apparatus 10 of the present embodiment normally keeps the first cover 220 opened and the second cover 230 closed. That is, the moisture absorbent material 260 of the dehumidifying device 200 is in communication with the inside IS of the photographing device 10, but the communication with the outside OS of the photographing device 10 is blocked. The humidity H in the photographing apparatus 10 is absorbed through the inside opening 201 of the dehumidifying apparatus 200 while the moisture in the outside OS of the photographing apparatus 10 is absorbed in the inside IS).

The step S10 of measuring the humidity in the photographing apparatus 10 is a step of measuring the humidity of the inside IS of the photographing apparatus 10 by the humidity sensor 300. [ The measured humidity data is transmitted to the control unit 400.

The step S20 of comparing the humidity in the photographing apparatus 10 with the set humidity is a step of comparing the humidity data inside the photographing apparatus 10 measured by the humidity sensor 300 with a predetermined humidity value. If the measured humidity value is larger than the preset humidity value, it means that the humidity inside the photographing apparatus 10 is not properly removed. This is because the moisture absorbent 260 of the dehumidifying device 200 absorbs moisture And the moisture absorption performance is deteriorated. The set humidity value can be determined in consideration of the outside air temperature so that no stagnation or frost will occur in the photographing apparatus 10. For example, the set humidity value may be set to a humidity value such that the outside temperature is not lower than the dew point of the inside of the photographing apparatus 10. [ If the set humidity value is interlocked with the outside temperature, a temperature sensor (not shown) capable of measuring the temperature of the outside air in the photographing apparatus 10 may be provided.

Closing the inner cover and opening the outer cover (S30), when it is determined that the measured humidity value is greater than a preset humidity value, closing the first cover 220 of the dehumidifier 200 and opening the second cover 230 to be. The first cover 220 of the dehumidifying device 200 is closed at this stage so that the moisture absorbent material 260 inside the dehumidifying device 200 is disconnected from the internal space IS of the photographing device 10, The second cover 230 of the dehumidifier 200 is opened to allow the moisture absorbent 260 inside the dehumidifier 200 to communicate with the outside OS. The operation of the first cover 220 and the second cover 230 can be controlled by the control unit 400.

The step of heating and drying the hygroscopic material with the heating unit S40 includes the steps of operating the heating unit 270 in a state where the first cover 220 of the dehumidifier 200 is closed and the second cover 230 is opened to be. When the moisture absorbent material 260 is heated by the heating unit 270, the moisture absorbent 260 is dried while releasing moisture contained therein. The operation of the heating unit 270 can be controlled by the control unit 400.

9 is a cross-sectional view schematically showing a dehumidifying device 200 portion of the photographing apparatus 10 of the present embodiment in order to explain the step of heating and drying the moisture absorbers with the heating section.

9, the moisture H emitted from the moisture absorber 260 is discharged to the outside (OS) of the photographing apparatus 10 through the outer opening 203 of the opened dehumidifier 200. As shown in FIG. At this time, since the inner opening 201 of the dehumidifier 200 is closed, the moisture released from the moisture absorber 260 can be blocked from flowing into the interior IS of the photographing apparatus 10 again. As described above, the hygroscopic material 260 is dried again and the hygroscopic force is restored while the hygroscopic material 260 releases moisture to the outside air.

In step S50 of closing the outer cover and opening the inner cover, the second cover 230 of the dehumidifying device 200 is closed again after the moisture absorbent 260 is heated for a sufficient time to complete the drying of the moisture absorbent 260 The first cover 220 is closed and returned to its original state. At this time, since the moisture absorbent 260 of the dehumidifier 200 is dried and the moisture absorbent is recovered, the moisture in the interior IS of the photographing apparatus 10 can be effectively removed again by the moisture absorbent 260.

As described above, according to the photographing apparatus 10 of the present embodiment, when the performance of the moisture absorbent 260 is lowered, the moisture of the moisture absorbent 260 is discharged to the outside, have. Therefore, it is possible to effectively prevent deterioration of the quality of the photographed image due to the blurring in the photographing apparatus 10.

In addition, since the photographing apparatus 10 of the present embodiment automatically dries the moisture absorbent material 260, it is possible to have an advantage that it is not necessary to perform another periodical inspection for replacing the moisture absorbent material 260. [ In particular, since the surveillance camera or the unmanned boundary robot is installed at a remote location or in a position where it is difficult for a person to access, it is difficult to replace the hygroscopic material 260. In the case where the photographing apparatus 10 according to the present embodiment is a surveillance camera Or unmanned boundary robots, it is possible to effectively solve such difficulties.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

For example, in the above-described embodiment, the photographing apparatus 10 is described as having the dehumidifying apparatus 200. However, in the dehumidifying apparatus 200 described above, if the apparatus needs to remove the internal moisture, But may be installed in any other electronic device.

Although the dehumidifying device 200 of the embodiment has been described as having the first cover 220 and the second cover 230, the dehumidifying device 200 of the present invention is not limited to the first cover 220 or the second cover 230, (230) may be omitted. That is, the dehumidifying device 200 of the present invention may be formed such that either the inner opening 201 or the outer opening 203 is always open. When the inner opening 201 is always open and only the outer opening 203 is opened or closed, the moisture of the moisture absorbing material 260 can be released to the outside, the outer opening 203 is always open, The moisture released from the moisture absorption material 260 can be prevented from being re-introduced into the image capturing apparatus 10. However, in order to effectively prevent the moisture released from the moisture absorbent material 260 from being re-introduced into the image capturing apparatus 10 and to prevent the moisture outside the image capturing apparatus 10 from being absorbed by the moisture absorbent 260, It may be desirable to have both the first cover 220 and the second cover 230 as in the embodiment.

3 to 5, the first cover 220 and the second cover 230 are separated from the opening of the housing 210 by the springs 245 and 255, and the first and second covers 240 and 240 The first cover 220 and the second cover 230 may be in close contact with the openings 201 and 203 by a spring so that the first cover 220 and the second cover 230 are in close contact with the openings of the housing 210, And may be spaced apart from the openings 201 and 203 when the first and second driving units 240 and 250 are operated. In this case, the first cover 220 and the second cover 230 may be provided with a magnet, which may be arranged to receive a repulsive force with respect to the magnetic force generated by the first drive unit 240 and the second drive unit 250 have.

It is needless to say that the present invention can be embodied in various forms.

10 ... photographing apparatus 110 ... case
140 ... camera unit 200 ... dehumidifier
210 ... housing 220 ... first cover
230 ... second cover 240 ... first driving part
250 ... second driving part 260 ... moisture absorbent
270 ... heating section

Claims (8)

A housing having openings formed at one side and the other side,
A hygroscopic material disposed inside the housing;
A heating unit for heating the moisture absorbent,
A first cover movably coupled to the housing so as to open and close an opening of one side of the housing;
Dehumidifier having a first driving unit for forcibly moving the first cover. The method of claim 1,
The heating unit includes:
Dehumidifiers disposed on both sides of the absorbent material, the at least one through-hole is formed. The method of claim 1,
A second cover movably coupled to the housing to open and close the opening of the other side of the housing;
And a second driving part for forcibly moving the second cover. The method of claim 1,
And a fan disposed on at least one of the one side and the other side of the housing to force air to flow around the opening on one side or the other side of the housing. The case which partitions a space inside,
A camera unit disposed inside the case and having an optical system;
The dehumidifier of any one of claims 1 to 4 disposed in the case,
The dehumidifier is,
An opening of one side of the housing is disposed in the case;
And an opening on the other side of the housing is disposed outside the case. 6. The method of claim 5,
The device further comprises a hygrometer for measuring the humidity inside the case. (a) measuring the humidity inside the photographing apparatus having an optical system therein;
(b) heating the hygroscopic material in the photographing apparatus to cause moisture released from the hygroscopic material to be discharged to the outside of the photographing apparatus, when the measured humidity inside the photographing apparatus is larger than a predetermined value, Communicating with the outside of the container;
(c) blocking the communication between the moisture absorptive material and the outside of the photographing apparatus when the moisture absorptive material is dried. 8. The method of claim 7,
The step (b)
Further comprising the step of cutting off the communication between the moisture absorptive material and the inside of the photographing apparatus so as to block the moisture released from the moisture absorptive material from flowing into the photographing apparatus,
The step (c)
Further comprising the step of: communicating the hygroscopic material with the inside of the photographing apparatus.

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