KR101064666B1 - Heating window assembly for camera - Google Patents

Abstract

The present invention relates to a heating window assembly for a camera, so that high quality images can be obtained by evaporating and removing moisture or frost formed on a window arranged in front of a camera imaging device.
The heating window assembly for a camera according to the present invention comprises a window arranged in front of the image pickup device; An inner light blocking ring provided at the rear of the window to prevent ambient light from flowing into the image pickup device; And a band-type heating film wound around the exposed surface of the inner light shielding ring and generating heat to evaporate and remove moisture or frost formed on the window.

Description

Heating window assembly for camera

The present invention relates to a heating window assembly for a camera, so that high quality images can be obtained by evaporating and removing moisture or frost formed on a window arranged in front of a camera imaging device.

In general, the camera includes an image pickup device for photographing a subject, a window covering and protecting the front of the image pickup device, and an internal shielding ring attached to the rear of the window to prevent light emitted from the surroundings from entering the image pickup device. .

In the CCTV camera, an IR element emitting infrared light (IR) is disposed around the image pickup device so that shooting at night is possible, and the inner light shield ring spatially separates the image pickup device area from the IR device area. Do not allow light emitted from the IR device to enter the image pickup device.

In addition, an external shielding ring is attached to the front of the window to block the light emitted from the IR device and the light passing through the window from flowing back to the image pickup device.

When light enters the image pickup device, since the quality of the image is blurred, such as blurring or blurring, most cameras include internal and external light blocking rings that block light from entering the image pickup device.

However, since the internal light shielding ring of the camera forms a closed space around the image pickup device together with the window, moisture or sex is frequently formed on the surface of the window due to the temperature difference between the inside and the outside during rainy days or in rainy season or in winter. .

Moisture or sex builds up in the window, which makes the image captured by the image pickup device unclear and blurry, making it difficult to identify the subject.

Moreover, in the limit below 20 degrees below zero, the imaging | photography of an image pick-up element may not be performed normally.

Thus, the present applicant proposes a window assembly having a heating member contacted between the rear surface of the window (rear) and the front surface of the inner light shielding ring in Patent No. 0970835, "IR CCTV Heating Window Assembly." Moisture and sexuality were removed by evaporation, and the light was delivered to the photographing device through the internal shielding ring to allow normal photography even in extreme conditions.

The heating member is preferably composed of a flexible printed circuit board (FPCB) in consideration of the slimming of the camera product, the convenience of manufacturing processing, the handling convenience when bonding to the product. In other words, after the heating circuit is printed on the film fabric surface, FPCB having an insulator such as polyimide coated on the surface is used as a heating member.

As such, in the case of using the FPCB as a heating member, the registered patent has a lot of waste of the film fabric. As can be seen in the drawings of the publication, the heating member is formed in an annular ring shape corresponding to the front shape of the inner shading ring, and the inside of the annular ring protrudes a connection portion for connecting a cable for applying power have.

Therefore, the registered patent prints a heating circuit in the shape of an annular ring and a connecting portion on a film fabric of a large area, and after producing a plurality of continuous heating members by coating an insulator, after removing the heating member from the film fabric, it remains as pieces. Material film is considerable, because a piece of cut film is generated, and a piece of cut film is discarded because it cannot be used. In other words, in the rectangular film fabric connecting the annular ring edge of the heating member, all of the film fabric except for the shape of the heating member is discarded, so the material loss is large.

In addition, the registered patent is focused on the heat transfer of the heating member to the window more effectively, taking the method of attaching the annular ring-shaped heating member directly to the window. That is, the heating member is bonded to the rear surface (back side) of the window, and the front surface of the inner light shielding ring is bonded to the rear surface of the heating member.

When attaching the annular ring-shaped heating member directly to the window, care should be taken to ensure that the heating member is bonded at the correct position on the rear side of the window, and that the lowering light ring is also bonded to the rear side of the heating member to which it is bonded. Since it should be tilted, there is a problem that the attachment work of the heating member and the inner light shielding ring is quite cumbersome and time consuming.

In addition, care should be taken to ensure that the heating element with flexible properties is attached to the window flatly without wrinkling during the bonding process, and if the heating member is attached to the wrong position of the window, the adhesive will be glued in place and removed in the heating process. Since the member may be damaged, careful attention must be paid to attaching the correct position at the same time, so that the heating member is more troublesome and time-consuming.

The present invention has been made in order to solve the problem of the heating window assembly according to the prior art as described above, by minimizing the generation of unnecessary film discarded discarded during the manufacturing process of the heating member (ie, heating film) Reduce costs,

It is easy to attach the heating member and the time is shortened, so that the productivity is high.

The heating member effectively transfers the heat generated by being in close contact with the surface of the inner light shielding ring to the window through the inner light shielding ring, and dissipates heat to the image pickup device area covered by the inner light shielding ring and the window to quickly remove the frost and moisture formed in the window. An object of the present invention is to provide a heating window assembly for a camera, which is removable, and effectively transfers heat toward an image pickup device through an internal shielding ring, so that imaging of the image pickup device is normally performed under extreme conditions.

The heating window assembly for a camera according to the present invention for achieving the above object

A window arranged in front of the image pickup device;

An inner light blocking ring provided at the rear of the window to prevent ambient light from flowing into the image pickup device;

And a band-type heating film wound around the exposed surface of the inner light shielding ring and generating heat to evaporate and remove moisture or frost formed on the window.

And the inner light shielding ring surface is characterized in that the insertion groove is inserted into the end of the heating film is formed,

The inner light blocking ring is formed with a plurality of cutouts,

The heating film is passed through the incision, characterized in that attached to the inner surface and the outer surface of the inner light shield ring alternately,

Inserted into the surface of the inner light shielding ring, characterized in that it further comprises an adhesion ring to adhere the heating film to the surface of the inner light shielding ring.

The heating window assembly for a camera according to the present invention having such a configuration is made of a band-type straight shape in which the heating film is wound around the inner light shielding ring surface, and thus occurs when a large number of continuous heating films are produced on a large-area fabric film. There is almost no rim fabric film, which saves costs by preventing unnecessary material consumption,

Since the heating film is not specifically set in place when the heating film is attached to the surface of the inner light shielding ring, there is no trouble in attaching the heating film and the working time can be shortened.

Due to the unfolding nature of the heating film, the heating film naturally adheres flat to the inner shading ring surface without wrinkles, and can be adhered to the inner shading ring surface without using an adhesive, so that the attachment work is easy and quick. Done,

If the adhesion ring is further introduced, the heating film is more closely adhered to the surface of the inner light shielding ring, and is stably attached without risk of departure.

1 is a perspective view showing an example of a camera to which a heating window assembly according to the present invention is applied.
2 is a perspective view of a heating window assembly according to the invention.
3 is an exploded perspective view of the heating window assembly shown in FIG.
4 is a cross-sectional view of the heating window assembly shown in FIG. 2.
5 is a perspective view of a heating window assembly according to another modified embodiment of the present invention.

Hereinafter, the heating window assembly for a camera according to the present invention will be described in more detail with reference to FIGS. 1 to 5.

First, as shown in Figure 1, the camera is generally

A housing (H) for protecting a built-in driving module (not shown) for photographing a subject through the imaging device (1);

An imaging device 1 mounted to be exposed in front of the housing H and driven by the driving module to photograph a subject;

A transparent window 10 arranged in front of the imaging device 1 to protect the imaging device 1;

A fixed cap 5 surrounding the periphery of the window 10 and coupled to a front outer circumference of the housing H;

It includes a waterproof packing (7) to prevent water from flowing through the coupling gap of the fixing cap (5) and the housing (H),

In the camera which must obtain a high quality image on a cloudy day or a dark night, such as a security CCTV camera, a large number of IR devices 3 emitting infrared (IR) light are disposed around the imaging device 1. An IR LED (Infra Red Light Emitting Diode) is mainly used as the IR element 3.

As shown in FIG. 2, the inner light shielding ring 20 surrounding the periphery of the imaging device 1 is generally provided at the rear of the window 10 to prevent light from being introduced into the imaging device 1. An external shielding ring 40 may be provided in front of the window 10 to prevent light from flowing into the image pickup device 1.

In particular, when arranging the IR elements 3 for emitting infrared light around the image pickup device 1, the internal light shielding ring 20 is an essential component, and the external light shielding ring 40 is also quasi-mandatory. Corresponds to the component to be done.

2 to 5, the heating window 10 assembly W according to the present invention includes a window 10, an inner light blocking ring 20, and a heating film 30, and an adhesive ring 50. , 60) and an external shielding ring 40 may be further included.

The window 10 is made of a transparent material through which the image pickup device 1 photographs a subject and the infrared light of the IR device 3 can pass therethrough. Transparent materials that can be used as the window 10 include glass, quartz, acrylic, polycarbonate, and the like.

And the surface of the window 10 may be antistatic coating, diffuse reflection coating, water repellent coating and the like.

The rear surface of the window 10 is formed with a ring-shaped recess 11, the front surface of the inner light shielding ring 20 is formed in an annular shape.

The seating recess 11 has a stepped structure, in which light emitted from the IR device 3 and incident on the window 10 or light incident on the window 10 from the outside is diffusely reflected from the inside to the inside inward and penetrated. It also serves to prevent the light from flowing into the image pickup device 1 by blocking it.

The inner light shielding ring 20 has a cylindrical structure, and a front surface is attached to the rear of the window 10 and surrounds the periphery of the image pickup device 1 to block ambient light from entering the image pickup device 1. do.

That is, the light emitted from the IR device 3 is separated by spatially separating the area of the imaging device 1 on which the imaging device 1 is disposed from the area of the IR device 3 on which the IR device 3 is disposed. The penetration of the image pickup device 1 into the area is prevented. Of course, the light flowing into the IR device 3 region from the outside through the window 10 is also blocked from penetrating into the image pickup device 1 region.

The internal light blocking ring 20 spatially separates the image pickup device area and the IR device area to block the inflow of light emitted from the IR device 3, and the light blocking part 27 to which the heating film 30 is attached to the surface thereof. ), Heat shielded in front of the light blocking portion 27, seated on the seating portion 11 of the window 10, and increasing the contact area with the window 10 to conduct heat from the heating film 30 to the window. It is composed of an extension 29 to be effectively delivered to.

The inner light shielding ring 20 is made of a metal material that can effectively transfer the heat emitted from the heating film 30 attached to the surface to the window 10, in particular, using light, excellent workability and excellent heat transfer rate of aluminum desirable.

The external light blocking ring 40 is attached to an exposed surface of the window 10, that is, an upper surface thereof, protrudes at a predetermined height from the surface of the window 10, so that light irradiated from the external side is captured by the image pickup device 1 region. Do not flow in.

The outer shading ring 40 is excellent in workability, it is preferable to use ABS resin with high impact resistance and flame retardancy.

The inner light blocking ring 20 and the outer light blocking ring 40 may be attached to the surface of the window 10 using UV bonding, double-sided adhesive tape, adhesive, or the like.

The heating film 30 is attached to the surface of the inner light shielding ring 20 and generates heat when electricity is supplied to evaporate and remove moisture or frost formed on the surface of the window 10.

The heating film 30 uses a FPCB that is thin in thickness, free of shape deformation, and excellent in restoring to the original state. That is, the heat generating circuit 35 may be printed on the surface of a thin and resilient fabric film, and an insulator film 37 may be formed on the surface to cover the heat generating circuit (coating may be formed using a method such as coating, coating, or deposition). To produce a heating film 30 of the FPCB.

The heating film 30 is wound around the inner light shielding ring 20 and attached. That is, the inner light shielding ring 20 is wound around the inner surface or the outer surface of the attachment. In the present invention, the heating film 30 is named as a band type before the heating film 30 is attached to the inner light shielding ring 20 as described above. The heating film 30 is formed in a thin flat shape and attached to the inner light shielding ring 20. When the band is named as a band type to be wound around the inner light shielding ring (20) surface attached to the band.

The heating film 30 has a winding portion 31 wound around the inner light shielding ring 20 and attached, and a connecting portion 33 connected to the winding portion 31 and connected to a cable 70 for supplying electricity. It consists of. In the drawing, the connecting portion 33 is vertically connected to the winding portion 31 and protrudes, and the space where the cable 70 can be connected to the cable 70 to be connected does not interfere with the imaging of the imaging device 1. When this is secured, the connecting portion 33 may prevent the winding portion 31 from protruding.

That is, if the end portion of the heating circuit to which the cable is connected is exposed at one end or the middle edge portion of the winding portion 31, there may be no connection portion 33 that protrudes separately. In this case, a predetermined period of the winding portion 31 of the heating film 30 may be disposed on the outer surface of the inner light shielding ring 20, and the cable may be connected by exposing the heating circuit end to the portion disposed on the outer surface.

One end of the heating circuit 35 is exposed by removing the coating 37 from one surface of the heating film 30 connection part 33, and a connection terminal having a cable 70 connected to the exposed heating circuit 35. 71 is connected and connected.

Wedge-shaped crimping portions 72 are vertically connected to both sides of the connection terminal 71.

The crimping portion 72 is pressed in a manner that the stamper irons the document, penetrates through one surface of the connecting portion 33, and then the end portion is bent inward to be pressed onto the other surface of the connecting portion 33, thereby the connecting terminal 71 ) Is in close contact with the heat generating circuit 35 to be electrically connected.

The band-type heating film 30 may be attached to an inner surface or an outer surface of both surfaces of the inner light blocking ring 20, or may be alternately attached to the inner surface and the outer surface.

As shown in the upper figure of FIG. 4, when the heating film 30 is attached to the inner surface of the inner light blocking ring 20, the outer diameter of the heating film 30 is smaller than the inner diameter of the inner light blocking ring 20. If the inner film is pushed into the inner ring ring and then released, the heating film 30 is unfolded in its own restoring force and naturally adheres to the inner surface of the inner light shielding ring 20. In this case, the heating film 30 is adhered to the surface of the inner light shielding ring 20 using an adhesive. It may not be bonded. Of course, in order to be in close contact with each other and not to be separated and separated, it may be bonded with an adhesive or the like.

When attaching the heating film 30 to the outer surface of the inner light shielding ring 20, as shown in the lower figure of Figure 4, the other end after overlapping one end of the heating film 30 with a predetermined portion of the outer surface of the inner light shielding ring 20 It is wound along the outer surface and in close contact with the outer surface of the inner shielding ring 20, in this case, since the heating film 30 is difficult to be bonded to the outer surface of the inner shielding ring 20 due to the property to be unfolded by its own restoring force, it is necessary to bond with an adhesive or the like. .

5 shows modifications of the inner light shielding ring 20 according to the present invention, and a mounting example of the heating film 30 according to the present invention.

In FIGS. 5A and 5B, fitting grooves 21 are formed on the surface of the inner light shielding ring 20 so that the heating film 30 does not move away from the surface of the inner light shielding ring 20. .

An end of the heating film 30 is fitted into the fitting groove 21 so that the heating film 30 does not move along the surface of the inner light blocking ring 20.

When the heating film 30 is attached to the inner surface of the inner shading ring 20 without using an adhesive, or the heating film 30 is preliminarily attached to the surface of the inner shading ring 20 (including both the inner and outer surfaces) and UV When the heating film is adhered to the inner light shielding ring in a bonding manner, the fitting groove 21 may block the movement (movement) of the heating film 30 and may be useful.

In addition, the fitting groove 21 is formed on the entire front and rear longitudinal direction of the surface of the inner light shielding ring, formed by a certain length, that is, formed to block the rear, the fitted heating film 30 is inside It may be desirable not to be separated from the inner surface of the light blocking ring 20.

On the other hand, when the heating film 30 is attached to the inner light shielding ring 20 (particularly the outer surface) without using an adhesive or the like, due to the self-resilience of the heating film 30, the heating film 30 is the internal light shielding ring ( 20) the surface is not in close contact, the end may be pulled out of the fitting groove (21). Therefore, at this time, the adhesive film or the double-sided tape or UV bonding method to the heating film 30 to be bonded to the surface of the inner light shielding ring 20, or to be adhered to the outer surface through the adhesion ring (50, 60) to be described later. There is a need.

As shown in the upper left of FIG. 5C, when the heating film 30 is alternately attached to the inner surface and the outer surface of the inner light shielding ring 20, the incision in the front and rear longitudinal directions is applied to the inner light shielding ring 20. 25) A plurality of formed at regular intervals, the heating film 30 may be alternately attached to the inner surface and the outer surface of the inner light shielding ring 20 while passing through the incisions (25).

As such, when the heating film 30 passes through the cutout 25 and alternately passes through the inner and outer surfaces of the inner light shielding ring 20, the heating film 30 is easily regenerated by self-resilience to be unfolded. It is attached to the inner light shielding ring 20 so as not to be separated.

When attaching the heating film 30 to be alternately disposed on the inner surface and the outer surface it is preferable to form a fitting groove 21 on the inner surface or the outer surface of the inner light shielding ring 20 for the end finishing of the heating film 30. Can be.

On the other hand, when the heating film 30 is not adhered to the surface of the inner light shielding ring 20 with an adhesive or the like, there is a possibility that the heating film 30 is not in close contact with the surface of the inner light shielding ring 20, There is a possibility of detachment from the shading ring.

Thus, as shown in the left and bottom exploded perspective view of FIG. 5C, the contact rings 50 and 60 may be introduced to forcibly close the heating film 30 to the surface of the inner light shielding ring 20. The adhesion rings 50 and 60 may also be introduced into the inner light shielding ring 20 and the heating film 30 having a structure as shown in FIGS. 3, 4 and 5, [A] and [B].

The outer contact ring 60 inserted into the outer surface of the inner light shielding ring 20 and the inner contact ring 50 inserted into the inner surface each have an inner diameter smaller than the outer diameter of the inner light shielding ring 20 and have an outer diameter larger than the inner diameter. It is preferably made of a material having elasticity and heat resistance, forcibly inserted into the outer surface and the inner surface of the inner light shielding ring 20, and closely contacting the heating film 30 to the outer surface and the inner surface of the inner light shielding ring 20. Do. Elastic and heat resistant materials include silicone and engineering plastics.

When the outer contact ring 60 and the inner contact ring 50 are both provided, the inner contact ring 50 protrudes outward from the rear of the inner contact ring 50 (or the inner contact ring 60 protrudes inward from the rear of the inner contact ring 60). A cover portion 51 is formed to cover the end of the end portion 20 and the end portion of the outer adhesion ring 60, and the annular protrusion 23 is formed in front of the inner light shielding ring 20, and the inner adhesion rings 50 and 60 are formed. It may be desirable to prevent the inner and outer contact rings 50 and 60 from being separated from the inner light blocking ring 20 by forming a long hole 53 into which the annular protrusion 23 is inserted and coupled to the front of the outer surface.

The process of removing the bite or frost on the window 10 in the heating window 10 assembly (W) according to the present invention configured as described above will be described briefly as follows.

If the temperature sensor (preferably installed inside the window 10, more preferably installed in the region of the photographing element among the window 10) is below the reference temperature, the drive module embedded in the housing (H) Electricity is supplied to the heating film 30 through this cable.

The heating film 30 supplied with electricity generates heat through a heat generating circuit, and conducts heat generated by heat to the window 10 through the inner light shielding ring 20 to be formed on the surface of the window 10 (inside and outside). Moisture or sex is removed by evaporation to dryness.

In addition, heat emitted from the heating film 30 is radiated from the imaging device 1 region and the IR device 3 region through the surface of the inner light shielding ring 20 to evaporate and remove moisture in these regions.

In addition, the heat emitted from the heating film 30 is also conducted to the driving module inside the image pickup device 1 and the housing (H) through the internal light shielding ring 20, so that shooting is normally performed even under extreme conditions of minus 20 degrees or less. To lose.

And in addition to the temperature sensor (not shown), or in addition to the temperature sensor may be provided with a humidity sensor (not shown) for sensing the additional humidity, the electricity to the heating film 30 according to the humidity detected by the humidity sensor It can also supply heat.

In the above description of the present invention has been described with respect to the CCTV heating window assembly having a specific shape and structure with reference to the accompanying drawings, the present invention can be variously modified and changed by those skilled in the art, such variations and modifications the present invention It should be interpreted as falling within the protection scope of.

1 imaging device 3 IR device
5: fixing cap 7: waterproof packing
H: Housing W: Window Assembly
10: Windows 11: home
20: internal shading ring 21: fitting groove
30: heating film 40: external shading ring
50, 60: contact ring

Claims (4)

A window arranged in front of the image pickup device;
An inner light blocking ring provided at the rear of the window to prevent ambient light from flowing into the image pickup device;
And a band type heating film wound around the exposed surface of the inner light shielding ring and generating heat to evaporate and remove moisture or frost formed on the window. The method of claim 1,
The heating window assembly for the camera, characterized in that the inner shading ring surface is formed with a fitting groove is inserted into the end of the heating film. The method of claim 1,
The inner light blocking ring is formed with a plurality of cutouts,
The heating film passes through the incision, the heating window assembly for a camera, characterized in that attached to the inner surface and the outer surface of the inner light shield ring alternately. The method according to any one of claims 1 to 3,
And a close contact ring inserted into the inner light blocking ring surface to closely adhere the heating film to the inner light blocking ring surface.

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