JP7145259B2 - Information communication equipment - Google Patents

Description

The present invention relates to an information communication device provided with an antenna and performing wireless communication using the antenna.

In order to perform wireless communication indoors, etc. using mobile communication terminals such as notebook computers, smartphones, and tablet terminals as information communication devices such as those described above, an antenna for wireless LAN is provided, and a wall facing the room and other information communication devices that can be installed on an installation surface are known (see Patent Document 1, for example).

This information communication device is provided with a main body section in which a power supply section and other electronic components are built, and the main body section is configured to be installable on an installation surface. Since a power supply unit and other electronic components are built in the main body, it is required to dissipate heat generated from these electronic components.

Therefore, in the information communication device described in Patent Document 1, the casing or the like exposed to the outside of the main body is used as a heat dissipation part, and the heat generated from the electronic parts is transferred to the heat dissipation part, thereby dissipating the heat generated from the electronic parts. Heat is dissipated outside the main unit.

Japanese Patent No. 6416420

In the information communication device described in Patent Document 1, the heat generated from the electronic components is transferred to the heat radiating portion such as the casing. It may lead to cost increase.

In view of this situation, the main object of the present invention is to provide an information communication device capable of dissipating heat generated from electronic components to the outside of the main body while simplifying the configuration and reducing the cost. .

A first characteristic configuration of the present invention is provided with a main body portion that incorporates an antenna and electronic components and can be freely installed on an installation surface,
The main body is provided with a heat radiating part capable of dissipating heat to the outside of the main body,
The internal space of the main body is provided with a heat transfer section that transfers heat generated from the electronic component to the heat dissipation section in a state in which the heat is transferred to a part of the antenna and the heat transfer is relayed by the antenna. at the point.

According to this configuration, the heat transfer section transfers heat to a part of the antenna and relays the heat transfer by the antenna. can be transferred to the heat radiating portion to dissipate heat to the outside of the main body portion. In this way, a part of the antenna can also function as the heat transfer section, so that the member can be shared, and the configuration can be simplified and the cost can be reduced.

A second characteristic configuration of the present invention is that the antenna includes a heat receiving portion that receives heat generated from the electronic component,
A fixing leg extending from the heat receiving part and a fixing part for fixing the antenna by fixing the fixing leg are provided,
The heat transfer portion is configured to transfer heat in the order of the heat receiving portion, the fixing leg portion, and the fixing portion.

According to this configuration, since the fixing leg and the fixing portion are originally provided to fix the antenna, the heat transfer portion transfers heat in the order of the heat receiving portion, the fixing leg, and the fixing portion. Thus, heat can be transferred using the originally provided members, and the configuration can be further simplified. Moreover, for example, since the heat-receiving portion of the antenna receives heat generated from the electronic component, a portion that does not adversely affect the original function of the antenna can be used as the heat-receiving portion. Heat can be transferred while maintaining the original function of the antenna.

A third characteristic configuration of the present invention is that the antenna, the substrate on which the electronic component is installed, and the fixing portion are arranged in this order from the front side in the internal space of the main body. be.

Since it is more effective to transmit radio waves from the front side of the main body in order to stably perform wide-range wireless communication, it is useful to dispose the antenna on the front side of the main body. On the other hand, there is a possibility that the front side of the main body may come into contact with a user or the like, so it is required to prevent the front side of the main body from becoming high temperature. Therefore, it is useful to set the heat transfer direction toward the rear side of the main body as the heat transfer direction.

Therefore, in this configuration, the antenna, the substrate on which the electronic components are installed, and the fixing portion are arranged in this order from the front side in the internal space of the main body. By adopting such an arrangement order, the antenna can be arranged on the front side of the main body, while the heat transfer section transfers heat to the fixing section arranged on the rear side of the main body. The direction of heat transfer can be the direction toward the rear side of the main body.

In a fourth characteristic configuration of the present invention, the substrate is provided with a penetrating portion that can pass through the fixing leg portion of the antenna,
The antenna is fixed to the fixing portion in such a manner that the fixing leg penetrates the substrate through the penetrating portion.

According to this configuration, when fixing the antenna, the fixing legs pass through the substrate through the penetrating portion and are fixed to the fixing portion. The antenna, the substrate, and the fixing portion can be efficiently arranged in the limited internal space of the main body.

In a fifth characteristic configuration of the present invention, the main body is installed on the installation surface in an embedded state in which at least a part of the rear side is embedded inside the installation surface,
The heat radiating portion is disposed in a portion of the main body portion that is embedded inside the installation surface,
The heat transfer section is provided with a heat transfer section between the fixing section and the heat dissipation section for transferring heat from the fixing section to the heat dissipation section.

According to this configuration, since the heat radiating section is arranged in a portion of the main body that is embedded inside the installation surface, heat is radiated from the heat radiating section to the outside of the main body within the installation surface. As a result, it is possible to appropriately prevent a portion that may come into contact with a user or the like from becoming hot.

Moreover, since the heat transfer part between the fixed part and the heat radiating part is provided, the heat transfer part between the fixed part and the heat radiating part does not conflict with other heat transfer members, and the heat is transferred from the fixed part to the heat radiating part. Any suitable configuration for effecting the transfer can be employed and the heat transfer can be effected appropriately.

Front view showing the state where the information outlet is installed Side view showing the state where the information outlet is installed The perspective view which shows a 1st heat-transfer part and a 2nd heat-transfer part. 2 is an exploded perspective view showing a first heat transfer section and a second heat transfer section; FIG. Schematic diagram in plan view showing heat transfer by the first heat transfer part

An embodiment of an information communication device according to the present invention will be described with reference to the drawings.
An information communication unit 2 corresponding to this information communication device is provided as part of an information outlet 1 installed on an installation surface such as a wall 11, as shown in FIGS. Hereinafter, the front side in the front-back direction perpendicular to the wall 11 will be described as the front side in the front-back direction (right side in FIG. 2), and the back side in the front-back direction will be described as the rear side in the front-back direction (left side in FIG. 2).

The information outlet 1 is provided with a power outlet unit 3 in addition to the information communication unit 2, as shown in FIG. The information communication unit 2 is arranged on one side in the horizontal direction (right side in FIG. 1), and the power outlet unit 3 is arranged on the other side in the horizontal direction (left side in FIG. 1). 3 are arranged side by side in the left-right direction. The front side of the information communication unit 2 is provided with a LAN modular plug connection port 4 to which a LAN modular plug can be freely connected. are provided.

As shown in FIG. 2, the information outlet 1 includes an outlet box 13 installed on the rear side of a rectangular installation hole 12 formed through the wall 11, and a decorative cover 14 arranged on the front side of the wall 11. are fixed via a mounting frame 15 which abuts against the front surface of the wall 11 between them.

Above and below the outlet box 13 are formed insertion openings 16 into which a power cable (not shown) wired in the rear space of the wall 11 and each cable such as the communication cable 7 are inserted. The communication cable 7 is drawn into the outlet box 13 through the insertion port 16 and connected to the information communication unit 2 . A power cable (not shown) for supplying power from a commercial power supply is also pulled into the outlet box 13 through the insertion port 16 and connected to the power outlet unit 3 . A power cable 6 is provided to connect the power outlet unit 3 and the information communication unit 2. By connecting the power outlet unit 3 and the information communication unit 2 with the power cable 6, electric power from a commercial power source is supplied. , is supplied to the information communication unit 2 via the power outlet unit 3 .

As shown in FIGS. 1 and 2 , the decorative cover 14 is formed with a mounting window 17 having a shape corresponding to the information communication unit 2 and the power outlet unit 3 . The information communication unit 2 and the power outlet unit 3 are mounted in such a manner that the front portions of the information communication unit 2 and the power outlet unit 3 are exposed forward through each mounting window 17 .

As shown in FIG. 3, the information communication unit 2 is provided with a main body unit 21 (main body section) containing a first antenna 31, a second antenna 41, and various parts for information communication. As shown in FIG. 2, the main body unit 21 does not entirely protrude forward from the wall 11, but a portion of the rear side thereof is embedded in the wall 11 in an embedded state. is set up. As shown in FIGS. 2 and 3, the main unit 21 is configured to be dividable into a front casing 24 and a rear casing 25, and the rear casing 25 as a whole and the rear end portion of the front casing 24 are separated from each other. It is embedded inside the wall 11 (see FIG. 2). In this way, by installing the main unit 21 in the wall 11 in an embedded state, it is possible to reduce the amount of protrusion of the device from the wall 11 into the room, which causes problems such as deterioration of aesthetic appearance and obstruction of the device. can be prevented.

For example, the front casing 24 is made of synthetic resin, and the rear casing 25 is made of metal such as aluminum or zinc copper. As a result, the rear casing 25 has good thermal conductivity, radiates heat to the outside from the outer surface of the rear casing 25 , and suppresses temperature rise inside the main unit 21 . A plurality of grooves are formed on the outer surface of the rear casing 25 to increase the surface area and promote heat dissipation to the outside.

As shown in FIG. 3, the front casing 24 has a rectangular front face 24a facing forward and a peripheral side 24b extending rearward from the outer peripheral edge of the front face 24a. It is shaped like an open box. The peripheral side portion 24b includes a planar upper portion extending rearward from the upper edge portion of the front surface portion 24a, a planar lower portion extending rearward from the lower edge portion of the front surface portion 24a, Four side portions, namely, a planar right portion extending rearward from the right edge of the front portion 24a and a planar left portion extending rearward from the left edge of the front portion 24a. have. The front side casing 24 is provided with a flange portion 24c extending laterally from the rear end portion of the peripheral side portion 24b, and as shown in FIG. It is

As shown in FIG. 3, the front surface portion 24a of the front side casing 24 is provided with an indicator lamp portion 26, a setting button 27, a connection port 4 for a LAN modular plug, and the like. The display lamp section 26 has various indicators such as an indicator that indicates the power-on state of the information communication unit 2 and an indicator that indicates the access state of the network. there is The setting button 27 is a button for performing various settings for network connection, and is arranged at the central portion in the horizontal direction and the vertical direction of the front surface portion 24a. The connection port 4 for the LAN modular plug is disposed at the lower side portion in the vertical direction at the central portion in the horizontal direction of the front surface portion 24a.

The rear side casing 25 is formed in a box shape with an open front side having a rectangular rear surface portion 25a facing the rear side and a peripheral side portion 25b extending forward from the outer peripheral edge of the rear surface portion 25a. ing. The peripheral side portion 25b includes an upper portion extending forward from the upper edge of the rear surface portion 25a, a lower portion extending forward from the lower edge of the rear surface portion 25a, and a right edge of the rear surface portion 25a. It has four side portions, namely, a right portion extending forward from the rear surface portion 25a and a left portion extending forward from the left edge portion of the rear surface portion 25a. A connection port 25c (see FIG. 2) for connecting cables such as the power cable 6 and the communication cable 7 is provided in the rear surface portion 25a and the peripheral side portion 25b of the rear side casing 25. As shown in FIG.

By assembling the front side casing 24 and the rear side casing 25, a hollow internal space with closed front and rear, left and right, and top and bottom is formed. Each part for is built-in. As each component, for example, a first antenna 31, a second antenna 41, a plurality of electronic components 22, and a plurality of substrates 23 on which the plurality of electronic components 22 are mounted are provided. Although a plurality of substrates are provided, only one substrate 23 is shown in FIGS. 3 and 4, and other substrates are omitted.

Since the electronic components 22 provided in the internal space of the main unit 21 serve as a heat source, as shown in FIGS. A first heat transfer section 51 and a second heat transfer section 61 are provided. Heat is transferred to the rear side casing 25 by these heat transfer portions 51 and 61, and the transferred heat is radiated from the outer surface of the rear side casing 25 to the outside. suppresses the temperature.

Both of the two heat transfer parts 51 and 61 transfer the heat generated from the electronic component 22 to a part of the antennas 31 and 41, and the antennas 31 and 41 relay the heat transfer, The heat is transferred to the rear side casing 25 . The first heat transfer section 51 and the second heat transfer section 61 are arranged vertically side by side. The second heat transfer portion 61 relays the heat transfer to the rear side casing 25 in a state of relaying the heat transfer of the In this state, the heat is transferred to the rear side casing 25 .

3 and 4, the heat transfer portions 51 and 61 will be described. Since they have the same configuration, only the first heat transfer section 51 on the upper side will be described, and the description of the second heat transfer section 61 on the lower side will be omitted.

The first heat transfer section 51 transfers heat to the rear casing 25 in a state in which heat transfer is relayed by a part of the first antenna 31, and a part of the first antenna 31 serves as the heat transfer section. Some are shared. The first antenna 31 is provided as a dual antenna having a plate-shaped antenna element 32 sensitive to multiple frequency bands (for example, 2.4 GHz and 5.0 GHz) of the wireless LAN and a ground 33 . The ground 33 is disposed so as to directly contact the electronic component 22 from the front side, or indirectly contact the electronic component 22 from the front side via a heat transfer member such as a heat transfer pad. It is disposed in contact with the electronic component 22 and provided as a heat receiving portion that receives heat generated from the electronic component 22 .

A plurality of electronic components 22 are mounted on the upper portion of the front surface of the substrate 23 so as to be spaced apart in the left-right direction. The ground 33 of the first antenna 31 is formed in a plate shape extending in the left-right direction and having a length covering the plurality of electronic components 22 . In the ground 33, a facing portion 33a that faces the electronic component 22 from the front side is widened so as to have greater widths than the electronic component 22 in the vertical and horizontal directions. As a result, the area of the heat-receiving portion of the ground 33 that receives the heat generated from the electronic component 22 is increased to efficiently receive the heat.

In order to fix the first antenna 31, a fixing leg portion 34 extending rearward from the ground 33 and a fixing portion 35 for fixing the first antenna 31 by fixing the fixing leg portion 34 are provided. ing. The fixing legs 34 are formed in the shape of an elongated metal rod extending in the front-rear direction, and are provided in plurality at predetermined intervals in the vertical direction and the horizontal direction. As with the substrate 23, the fixing portion 35 is composed of a rectangular plate made of metal whose width in the vertical direction is larger than that in the horizontal direction. formed.

The first antenna 31, the substrate 23, and the fixing portion 35 are arranged in the order of the first antenna 31, the substrate 23, and the fixing portion 35 from the front side. Since the substrate 23 is disposed between the first antenna 31 and the fixing portion 35, the substrate 23 is provided with the penetrating portion 23a that can pass through each of the plurality of fixing leg portions 34 of the first antenna 31. It is The first antenna 31 is attached to the mounting portion 35a of the fixing portion 35 in a state in which the plurality of fixing leg portions 34 penetrate the substrate 23 through the plurality of penetrating portions 23a, respectively. 35 is fixed.

The first heat transfer portion 51 transfers heat generated from the electronic component 22 to the ground 33 of the first antenna 31, the fixing leg portion 34, and the fixing portion 35 in this order. The first heat transfer portion 51 includes a fixed portion-radiating portion heat transfer portion 52 that transfers heat from the fixed portion 35 to the rear side casing 25 . The heat transfer portion 52 between the fixed portion and the heat radiating portion is made of metal, and includes a plate-like facing portion 52a that faces the entire fixed portion 35 from the rear side, and both ends of the facing portion 52a in the left-right direction. It is formed in a U shape in a plan view having a rear extension portion 52b extending rearward. The opposing portion 52a is arranged in a state of directly contacting the fixing portion 35 from behind, or indirectly contacting the fixing portion 35 from the rear side via a heat transfer member such as a heat transfer pad. They are arranged in contact with each other and receive the heat of the fixing portion 35 . The rear extending portion 52b is disposed so that its rear end portion contacts the rear casing 25, and moves the heat received from the fixed portion 35 at the opposing portion 52a to the rear side, thereby transferring the heat to the rear side. The heat is transferred to the side casing 25 .

Based on the schematic diagram of FIG. 5, the heat transfer by the first heat transfer part 51 will be explained. FIG. 5 is a schematic plan view showing how heat is transferred. etc. are omitted.

The heat generated from the electronic component 22 is first transmitted to the ground 33 of the first antenna 31 facing forward, as indicated by an arrow T1. Next, as indicated by an arrow T2, the heat transferred to the ground 33 is transferred from the ground 33 to the fixing leg 34, moves rearward through the fixing leg 34, and is transferred to the fixing part 35. . Next, as indicated by an arrow T3, the heat transferred to the fixed portion 355 is transferred from the fixed portion 35 to the fixed portion-heat radiating portion heat transfer portion 52, and is transferred to the rear of the fixed portion-heat radiating portion heat transfer portion 52. It moves rearward through the extended portion 52 b and is transmitted to the rear casing 25 .

In this manner, the heat transferred to the rear casing 25 by the first heat transfer portion 51 is radiated to the outside from the outer surface portion of the rear casing 25 . As shown in FIG. 2 , the rear side casing 25 is entirely embedded inside the wall 11 , so that heat is radiated inside the wall 11 and bulges forward from the wall 11 . It is possible to prevent the front side casing 24 and the like from becoming hot. Therefore, in the information communication unit 2, it is possible to appropriately prevent a portion of the information communication unit 2 that may be touched by a user or the like from becoming hot, and the information communication unit 2 has a suitable heat dissipation structure.

Although the detailed description of the second heat transfer section 61 is omitted, as shown in FIGS. is relayed to transfer heat to the rear side casing 25 . Like the first antenna 31 , the second antenna 41 also serves as part of the second heat transfer section 61 , and includes an antenna element 42 and a ground 43 . A leg portion 44 and a fixing portion 35 are provided.

Here, the fixing portion 35 is configured by one plate-like body having the same width as the substrate 23 in the vertical direction and the horizontal direction. 35 are integrally provided. Similarly to the fixed portion 35, the fixed portion-heat radiating portion heat transfer portion 52 is also composed of one plate-like body having the same width as the substrate 23 in the vertical direction and the horizontal direction. The fixed portion-heat radiating portion heat transfer portion 52 of 51 and the fixed portion-heat radiating portion heat transfer portion 52 of the second heat transfer portion 61 are integrally provided. Thereby, the second heat transfer section 61 transfers the heat generated from the electronic component 22 to the ground 43 of the second antenna 41, the fixing leg section 45, and the fixing section 35 common to the first antenna 31 in this order. . The second heat transfer portion 61 transfers the heat transferred to the fixed portion 35 to the rear side casing 25 through the fixed portion-radiating portion heat transfer portion 52 shared with the first heat transfer portion 51 .

[Another embodiment]
Another embodiment of the present invention will be described. It should be noted that the configuration of each embodiment described below is not limited to being applied alone, but can also be applied in combination with the configuration of other embodiments.

(1) In the above-described embodiment, the information communication unit 2 is designed to have commercial power specifications so that power is supplied through the power cable 6 by connecting the power cable 6 to the information communication unit 2 . The information communication unit 2 can also be of POE (Power Over Ethernet) specifications so as to receive power supply via the .

(2) In the above embodiment, the information communication unit 2 is provided with the connection port 4 for the LAN modular plug, but the connection port 4 for the LAN modular plug may be omitted. Further, the information communication unit 2 may be designed to have a connection port for a telephone line modular adapter in addition to the connection port 4 for the LAN modular plug.

2 Information communication unit (information communication device)
21 main unit (main unit)
22 electronic component 25 rear side casing (heat radiation part)
31 first antenna 33 ground (heat receiving part)
34 fixing leg 35 fixing part 41 second antenna 43 ground (heat receiving part)
44 fixing leg portion 51 first heat transfer portion 52 heat transfer portion between fixing portion and heat dissipation portion 61 second heat transfer portion

Claims (5)

It has a main body that has an antenna and electronic parts built in and that can be freely installed on the installation surface,
The main body is provided with a heat radiating part capable of dissipating heat to the outside of the main body,
The internal space of the main body is provided with a heat transfer section that transfers heat generated from the electronic component to the heat dissipation section in a state in which the heat is transferred to a part of the antenna and the heat transfer is relayed by the antenna. information communication equipment. The antenna is provided with a heat receiving part that receives heat generated from the electronic component,
A fixing leg extending from the heat receiving part and a fixing part for fixing the antenna by fixing the fixing leg are provided,
2. The information communication device according to claim 1, wherein the heat transfer section is configured to transfer heat in order of the heat receiving section, the fixing leg section, and the fixing section. 3. The information communication device according to claim 2, wherein the antenna, the substrate on which the electronic component is installed, and the fixed portion are arranged in this order from the front side in the internal space of the main body portion. The substrate is provided with a penetrating portion that can pass through the fixing leg portion of the antenna,
4. The information communication device according to claim 3, wherein the antenna is fixed to the fixing portion in such a state that the fixing leg penetrates the board through the through portion. The main body is installed on the installation surface in an embedded state in which at least a part of the rear side is embedded inside the installation surface,
The heat radiating portion is disposed in a portion of the main body portion that is embedded inside the installation surface,
The information communication according to any one of claims 2 to 4, wherein the heat transfer section includes a heat transfer section between the fixed section and the heat radiating section that transfers heat from the fixed section to the heat radiating section. Device.

Images