JP6813431B2 - Heat generator - Google Patents

Description

The present invention relates to a heat generating device.

Currently, vehicles are increasingly equipped with image recording devices. Some image recording devices for this vehicle are attached to the windshield from inside the vehicle.

In an image recording device attached to the windshield from inside the vehicle, if the windshield in front of the photographing camera becomes cloudy due to dew condensation or the like, the image of the photographing camera may become unclear.

Therefore, there is an image recording device provided with a foil heater. The image recording device heats the windshield in front of the photographing device with a foil heater to prevent fogging, and photographs and records images in front of the vehicle.

In order to record an even image in an image recording device, it is important to uniformly remove fogging on the windshield in front of the photographing device. In order to uniformly remove the fogging of the windshield in front of the photographing device, it is important to uniformly warm the windshield in front of the photographing device.

In Patent Document 1, the foil heater is formed so that the heat radiant output for each unit area of two different surface areas or length areas is different, and the heat radiant output of the foil heater far from the windshield is increased to increase the heat radiant output from the windshield. The heat radiant output of the nearby foil heater is reduced. In this way, Patent Document 1 reduces the temperature difference between the windshield portion that is far from the foil heater and the windshield portion that is close to the foil heater.

International Publication No. 2012/069115

However, if the thickness and thickness of the heater wires are changed or the intervals between the heater wires are changed in order to make the heat generation amount of the foil heater non-uniform, the structure of the foil heater becomes complicated and the cost increases.

Therefore, an object of the present invention is to provide a heat generating device capable of heating the windshield in front of the photographing device so that the temperature of the windshield becomes uniform while having a simple structure of the heat generating portion.

The heat generating device of the present invention is a heat generating device that warms the glass surface of the vehicle included in the photographing range of the photographing device for photographing the outside of the vehicle, and the fixed portion fixed to the glass surface and the photographing of the photographing device. The bottom portion of the opening is provided with a main body portion having an opening opening in a direction, a planar heat generating portion having a first region and a second region, and uniformly generating heat in the plane. Is formed so that the distance from the photographing device increases with the distance from the photographing device along the photographing direction, and the first region of the heat generating portion is arranged at the bottom of the opening. The second region of the heat generating portion is arranged in the fixed portion in the vicinity of the opening end on the photographing device side of the opening.

According to the present invention, it is possible to heat the windshield in front of the photographing apparatus so as to be uniform while having a simple structure for the heat generating portion.

It is a figure when the image recording device equipped with the heat generating device which concerns on 1st Embodiment is attached to a vehicle. It is a perspective view of the heat generating device which an image recording apparatus has. It is a perspective view which looked at the diffused cover from the back side (the inside of a vehicle). It is a figure which showed the heat generating part attached to the back side of the bottom part of a diffuser cover. FIG. 2 is a cross-sectional view taken along the line AA of FIG. It is a figure which showed the heat generating part attached to the back side of the bottom part of the diffuser cover which concerns on 2nd Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

[First Embodiment]
FIG. 1 is a diagram when an image recording device equipped with a heat generating device according to the first embodiment is attached to a vehicle. FIG. 1 shows a vehicle 1 and an image recording device 2. FIG. 1 is a perspective view of a part of the vehicle 1 from the front.

The vehicle 1 has a windshield 1a. The image recording device 2 is attached to the windshield 1a from the inside of the vehicle 1.

The image recording device 2 includes a photographing camera and photographs the front of the vehicle 1. The image recording device 2 stores the image data captured by the photographing camera in a storage device such as an HDD (Hard Disk Drive), for example.

FIG. 2 is a perspective view of the heat generating device 10 included in the image recording device 2. As shown in FIG. 2, the heat generating device 10 has a main body portion 11. The main body 11 is made of, for example, plastic. As will be described later, the heat generating device 10 has a heat generating portion and heats the windshield 1a included in the shooting range of a shooting camera (see, for example, the shooting camera 41 of FIG. 5) that shoots the outside of the vehicle 1. The arrow A3 in FIG. 2 indicates the shooting direction of the shooting camera fixed to the back portion 16 described later.

The main body portion 11 has a fixing portion 12, a bottom portion 13, side portions 14, 15 and a back portion 16.

The fixing portion 12 has a planar shape. The fixing portion 12 is fixed to the windshield 1a from the inside of the vehicle 1 (see, for example, FIG. 5). The fixing portion 12 is fixed to the windshield 1a by, for example, double-sided tape.

The bottom portion 13 has a planar shape. The width of the bottom portion 13 shown by the double-headed arrow A1 in FIG. 2 is formed so as to gradually widen toward the arrow tip direction of the arrow A3. That is, the width of the bottom portion 13 is formed so as to gradually increase toward the shooting direction of the shooting camera.

The side portions 14 and 15 have a planar shape. The side portions 14 and 15 extend from the bottom portion 13 toward the fixed portion 12. The heights of the side portions 14 and 15 shown by the double-headed arrow A2 in FIG. 2 are formed so as to gradually decrease toward the arrow tip direction of the arrow A3. That is, the heights of the side portions 14 and 15 are formed so as to gradually decrease toward the shooting direction of the shooting camera.

The back portion 16 has a planar shape. The back portion 16 extends from the bottom portion 13 toward the fixed portion 12. The back portion 16 has an opening X1, and a lens portion of a photographing camera is inserted into the opening X1 (see, for example, FIG. 5).

The main body portion 11 has a concave opening X2 surrounded by a bottom portion 13, side portions 14, 15 and a back portion 16. That is, the main body 11 has an opening X2 that opens in the shooting direction of the shooting camera.

The bottom portion 13, the side portions 14, 15 and the back portion 16 may be integrally formed so as to be removable from the main body portion 11. The bottom 13, sides 14, 15 and back 16 are also referred to as diffuse covers or hoods. Hereinafter, the bottom portion 13, the side portions 14, 15 and the back portion 16 are referred to as a diffuser cover. The diffused cover prevents the diffused light from the inside of the vehicle from entering the photographing camera.

FIG. 3 is a perspective view of the diffuser cover 21 as viewed from the back side (inside the vehicle 1). In FIG. 3, the same ones as those in FIG. 2 are designated by the same reference numerals. As shown in FIG. 3, the diffuser cover 21 is formed by a bottom portion 13, side portions 14, 15 and a back portion 16.

On the back side of the bottom 13 of the diffuser cover 21, a heat generating portion 31 is provided as shown by diagonal lines. The heat generating portion 31 is, for example, a foil heater, and is attached to the back side of the bottom portion 13 of the diffuser cover 21 with double-sided tape.

Further, as will be described next, a heat generating portion 31 is also provided on the back side of the fixing portion 12.

FIG. 4 is a diagram showing a heat generating portion 31 attached to the back side of the main body portion 11. In FIG. 4, the same ones as those in FIGS. 2 and 3 are designated by the same reference numerals. The arrow A11 shown in FIG. 4 indicates the shooting direction of the shooting camera.

The heat generating portion 31 (the portion indicated by the dotted line frame) is formed by, for example, a planar heat generating resistor. As shown in FIG. 4, the heater wire of the heat generating portion 31 is formed to meander.

The heat generating portion 31 has a first region formed on the back side of the bottom portion 13 and a second region formed on the back side of the fixing portion 12. The dotted line frame shown by the arrow A12a in FIG. 4 indicates the first region of the heat generating portion 31, and the arrow A12b indicates the second region. The second region is the back side of the fixed portion 12 and is formed in the vicinity of the opening end of the opening X2 on the photographing camera side (see, for example, the dotted frame A34 in FIG. 5). More specifically, the second region is formed from the opening end of the opening X2 on the photographing camera side in a direction opposite to the photographing direction (direction of arrow A11).

The thickness, thickness, and spacing of the heater wires of the heat generating portion 31 are uniformly formed. For example, the thickness, thickness, and spacing of the heater wires of the heating unit 31 in the first region are the same as the thickness, thickness, and spacing of the heater wires of the heating unit 31 in the second region (hereinafter, , Including approximately the same). As a result, the heat generating portion 31 in the two regions has a uniform amount of heat generated in the plane (inside the frame of the dotted line).

FIG. 5 is a cross-sectional view taken along the line AA of FIG. In FIG. 5, the same ones as those in FIG. 2 are designated by the same reference numerals. Note that FIG. 5 shows a cross section taken along the line AA when the heat generating device 10 of FIG. 2 is attached to the windshield 1a of the vehicle 1, and also shows a part of the windshield 1a of the vehicle 1. ..

Further, FIG. 5 shows a photographing camera 41 fixed to the opening X1 of the back portion 16. The arrow A31 shown in FIG. 5 indicates the shooting direction of the shooting camera 41. The arrow A3 shown in FIG. 2 corresponds to the arrow A31 in FIG. Further, the arrow A32 shown in FIG. 5 indicates the calorific value of the heat radiated from the bottom portion 13, and the longer the length of the arrow A32, the larger the amount of heat generated.

As shown in FIG. 4, the heat generating portion 31 of the bottom portion 13 is formed so that the width becomes constant in the shooting direction of the shooting camera 41 (the direction in which the arrow A11 is viewed from the arrow). Therefore, the calorific value of the heat radiated from the bottom 13 is constant as shown by the arrow A32 in FIG.

Here, as shown in FIG. 5, the bottom portion 13 of the opening X2 is formed so that the distance from the windshield 1a becomes closer toward the shooting direction (arrow A31) of the shooting camera 41. Therefore, the temperature of the portion of the windshield 1a that is far from the bottom portion 13 is lower than that of the portion of the windshield 1a that is close to the bottom portion 13. For example, the temperature of the portion of the windshield 1a shown by the arrow A33a in FIG. 5 is lower than that of the portion of the windshield 1a shown by the arrow A33b.

On the other hand, as described with reference to FIG. 4, the heat generating portion 31 is formed on the back side of the fixed portion 12 and also near the opening end of the opening X2 on the photographing camera 41 side. Therefore, the heat generating device 10 also radiates heat from the portion shown by the dotted line frame A34 in FIG. That is, the heat generating portion 31 in contact with the windshield 1a via the fixing portion 12 radiates heat in the vicinity of the portion of the windshield 1a (the portion indicated by the arrow A33a) where the temperature becomes low. The radiated heat is transferred to the portion of the windshield 1a where the temperature becomes low. As a result, the heat generating device 10 can heat the windshield 1a of the vehicle 1 included in the shooting range of the shooting camera 41 so that the temperature becomes uniform.

As described above, the heat generating device 10 for heating the windshield 1a of the vehicle 1 included in the shooting range of the shooting camera that shoots the outside of the vehicle 1 includes the fixing portion 12 fixed to the windshield 1a and the shooting camera 41. It has a main body portion 11 having an opening X2 that opens in the photographing direction, and a planar heat generating portion 31 having a first region and a second region and uniformly generating heat in the plane. The bottom portion 13 of the opening X2 is formed so that the distance from the photographing camera 41 with respect to the windshield 1a becomes closer as the distance from the photographing camera 41 increases, and the first region of the heat generating portion 31 is the opening. It is arranged at the bottom 13 of X2, and the second region of the heat generating portion 31 is a fixed portion 12 and is arranged near the opening X2 on the photographing camera side of the opening X2. As a result, the heat generating device 10 can heat the windshield 1a so that the temperature of the windshield 1a becomes uniform while the heat generating portion 31 has a simple structure.

Further, the heat generating portion 31 can uniformly form the thickness of the heater wire, the thickness of the heater wire, and the interval between the heater wires. Therefore, the heat generating device 10 is easier than the heat generating device that uniformly heats the windshield 1a by forming the thickness of the heater wire, the thickness of the heater wire, or the interval between the heater wires of the heating portion non-uniformly. Can be manufactured. In addition, the design of the heat generating portion 31 becomes easy. Further, the cost of the heat generating device 10 can be reduced.

Although the heat generating portion 31 is said to be formed on the back side of the bottom portion 13, it may be formed on the front side (windshield 1a side).

Further, although the main body portion 11 is formed of, for example, a resin such as plastic, the diffuser cover 21 may be formed of a metal so as to improve the heat radiation of the heat generating portion 31.

[Second Embodiment]
In the first embodiment, the heat generating portion 31 formed on the back side of the fixed portion 12 is formed from the opening end of the opening X2 on the photographing camera 41 side in the direction opposite to the photographing direction. In the second embodiment, the heat generating portion 31 is also formed from the opening end of the opening X2 on the photographing camera 41 side toward the photographing direction.

FIG. 6 is a diagram showing a heat generating portion attached to the back side of the bottom portion of the diffuser cover according to the second embodiment. In FIG. 6, the same ones as in FIG. 4 are designated by the same reference numerals.

The heat generating portion 31 of FIG. 6 has a third region with respect to the heat generating portion 31 shown in FIG. The dotted line frame shown by arrows A41a and A41b in FIG. 6 indicates a third region of the heat generating portion 31. The third region is the back side of the fixed portion 12, is formed near the opening end of the opening X2 on the shooting camera 41 side, and faces the shooting direction of the shooting camera 41 (direction of arrow A11 in FIG. 6). Is formed. In other words, the third region is formed in the fixing portions 12 on both sides of the opening X2. Further, the third region is formed so that the width becomes narrower as the distance from the photographing camera 41 along the photographing direction increases.

The heater wire of the heat generating portion 31 in the third region is formed by the same thickness, width, and spacing as the heater wire in the other region. Therefore, the heat generating portion 31 in the three regions has a uniform amount of heat generated in the plane (inside the frame of the dotted line).

Here, as described with reference to FIG. 5, the temperature of the windshield 1a heated by the bottom portion 13 is lower in the portion indicated by the arrow A33a than in the portion indicated by the arrow A33b.

However, as described above, the third region of the heat generating portion 31 is formed so as to become narrower as the distance from the photographing camera 41 in the photographing direction increases. Therefore, the temperature of the windshield 1a heated by the third region is higher in the temperature of the portion indicated by the arrow A33a in FIG. 5 than in the temperature of the portion indicated by the arrow A33b. As a result, the heat generating device 10 can heat the windshield 1a of the vehicle 1 included in the shooting range of the shooting camera 41 so that the temperature becomes uniform.

As described above, the heat generating portion 31 is formed from the opening end of the opening X2 on the photographing camera 41 side toward the photographing direction. Further, the heat generating portion 31 is formed so that the width becomes narrower as the distance from the photographing camera 41 along the photographing direction increases. As a result, the heat generating device 10 can heat the windshield 1a so that the temperature of the windshield 1a becomes uniform while the heat generating portion 31 has a simple structure.

In the above, it is assumed that the heat generating portion 31 shown by the arrow A12b and the heat generating portion 31 shown by the arrows A41a and A41b are formed on the back side of the fixing portion 13, but the heat generating portion 31 shown by the arrow A12b is formed. Instead, the heat generating portion 31 shown by the arrows A41a and A41b may be formed. This also allows the heat generating device 10 to heat the windshield 1a of the vehicle 1 included in the shooting range of the shooting camera 41 so that the temperature becomes uniform.

1 Vehicle 1a Windshield 2 Image recording device 10 Heat generating device 11 Main body 12 Fixed part 13 Bottom 14, 15 Side 16 Back X1, X2 Opening 21 Diffuse cover 31 Heat generating part 41 Shooting camera

Claims (4)

A heat generating device that heats the glass surface of the vehicle included in the shooting range of the shooting device that shoots the outside of the vehicle.
A main body portion having a fixed portion fixed to the glass surface and an opening opening in the photographing direction of the photographing apparatus, and
A planar heat generating portion having a first region and a second region and uniformly generating heat in the plane,
With
The bottom of the opening is formed so that the distance from the imaging device increases with the distance from the imaging device along the imaging direction.
The first region of the heat generating portion is arranged at the bottom of the opening.
The second region of the heat generating portion is arranged in the fixed portion in the vicinity of the opening end of the opening on the imaging device side.
Heat generator. The second region is formed from the opening end of the opening on the imaging device side in a direction opposite to the imaging direction.
The heat generating device according to claim 1. The second region is arranged in the fixing portions on both sides of the opening.
The heat generating device according to claim 1 or 2. The second region is formed so that the width becomes narrower as the distance from the photographing apparatus increases along the photographing direction.
The heat generating device according to claim 3.

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