JP7301519B2 - Electronic device enclosures and covers for electronic device enclosures - Google Patents

Description

TECHNICAL FIELD Embodiments of the present invention relate to an electronic device housing and its cover.

2. Description of the Related Art Conventionally, it is known that an electronic device installed outdoors includes a plurality of rack units each having a housing and a plurality of electronic devices housed in the housing. A housing used in such a rack unit has ventilation holes communicating between the inside and outside of the housing in order to prevent the temperature inside the housing from rising to a temperature that adversely affects the operation of the electronic equipment. By ventilating the inside of the housing through the ventilation holes, the temperature inside the housing is prevented from rising excessively.

Also, there is known a technique of providing a cover for preventing water from entering through a ventilation hole when the electronic device is installed outdoors. In a rack unit that is designed to be installed outdoors, there is a known technique in which a cover is configured to cover the front of the hole, the upper part of the hole, and both sides of the hole in order to prevent rainwater from entering. Such a cover is made of steel, for example.

JP 2004-119844 A JP-A-2003-229680 Japanese Utility Model Laid-Open No. 60-181094

A rack unit for such electronic equipment may tip over, for example, during installation work. In particular, from the viewpoint of saving installation space, a rack unit having a long shape in which the length in the vertical direction is longer than the length in the width and depth directions is likely to fall over during installation. Also, when the rack units are transported to the installation site, a plurality of rack units placed on the bed of the truck may shake due to the vibration of the truck, for example, and come into contact with another adjacent rack unit.

Therefore, the configuration to be solved by the present invention is to provide a housing and a cover that can suppress damage due to external load.

According to an embodiment, an electronic device housing includes a housing body, a cover, and a fixing member. The housing body includes a side wall portion having a ventilation hole formed above the center in the vertical direction. The cover protrudes outward from the housing body so as to cover the ventilation hole in the side wall portion of the housing body, and is made of a material and shape that is more easily deformable than the housing body. By connecting the cover body, which is formed with a shock-absorbing structure that absorbs an impact from an external force when the housing body is overturned, and the ventilation holes of the housing body, the inside and outside of the housing body are separated. and a communicating portion that communicates. The fixing member detachably attaches the cover to the outer surface of the housing body. The shock absorbing structure of the cover main body is a shock absorbing structure configured in a bellows shape that can expand and contract along the direction projecting outward from the outer surface.

The front view which shows the structure of the housing|casing which concerns on 1st Embodiment. FIG. 2 is a side view showing the structure of the housing according to the first embodiment; FIG. 2 is an exploded perspective view showing the housing according to the first embodiment; FIG. 2 is a perspective view showing the configuration of a cover used for the housing according to the first embodiment; FIG. 2 is an exploded perspective view showing a cover used for the housing according to the first embodiment; The front view which shows the state which the housing|casing which concerns on 1st Embodiment fell down. FIG. 10 is a perspective view showing the configuration of a cover used for the housing according to the second embodiment; The perspective view which shows the structure of the cover used for the housing|casing which concerns on 3rd Embodiment. The perspective view which explodes and shows the cover used for the housing|casing which concerns on 3rd Embodiment. The perspective view which shows the structure of the cover used for the housing|casing which concerns on 4th Embodiment. FIG. 10 is a side view showing a configuration of a modification of the housing according to the first to fourth embodiments;

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below. In the following embodiments, as an example of an electronic device installed outdoors, a highway radio system for providing road information on a highway will be described. It can be applied to any electrical equipment that can be used.
<First Embodiment>
A housing 10 according to the first embodiment will be described with reference to FIGS. 1 to 6. FIG.
FIG. 1 is a front view showing the housing 10. FIG. FIG. 2 is a side view showing the housing 10. FIG. FIG. 3 is an exploded perspective view of the housing 10. As shown in FIG.

As shown in FIGS. 1 to 3, the housing 10 includes a housing body 20, a cover 30 provided on the housing body 20, a shade portion 40 provided on the housing body 20, and the housing body 20. and a leg 50 provided on the . The housing 10 accommodates a plurality of electronic devices (not shown) forming part of the rack unit.

As an example, the housing 10 has an opening on the front surface and is configured in a rectangular parallelepiped shape that is long in the vertical direction with respect to the length in the front-rear direction and the length in the left-right direction. The housing body 20 specifically has a bottom wall portion 21 , two side wall portions 22 , a rear wall portion 23 and a ceiling wall portion 24 .

Each of the two side wall portions 22 has a ventilation hole 22a for ventilation. The ventilation holes 22 a pass through the side wall portion 22 . At least part of the ventilation hole 22a is arranged above the center C1 of the side wall portion 22 in the vertical direction. In the present embodiment, as an example, the entire area of the ventilation hole 22a is arranged above the center C1 in the vertical direction of the outer surface 22b of the side wall portion 22. Specifically, it is arranged near the upper end of the side wall portion 22. . Note that the center C1 in the vertical direction of the outer surface 22b referred to here is the center in the vertical direction when the housing 10 is installed at the installation location P. As shown in FIG. The ventilation hole 22a is configured in a circular shape as an example.

Further, each of the two side wall portions 22 is provided with, as an example, a plurality of fixing portions 22c for fixing side wall plates 42, which are used in the shade portion 40 and will be described later, on the outer surface 22b. Each of the plurality of fixing portions 22c is configured so that the screw 5 can be screwed therewith.

The rear wall portion 23 is, for example, attached to the rear end of one side wall portion 22 by a hinge so as to be openable and closable.
The ceiling wall portion 24 has a plurality of anchor bolts 25 . Anchor bolts 25 are configured as eyebolts. Anchor bolts 25 pass wires used for transporting the rack unit, for example.

A cover 30 is provided on each outer surface 22 b of the two side wall portions 22 . The cover 30 is configured to prevent water from entering the housing 10 through the ventilation holes 22a. The cover 30 has a configuration to cover the ventilation holes 22a.

The configuration for covering the ventilation holes 22a referred to here means blocking the assumed path of water to the ventilation holes 22a. The assumed route of water is assumed according to the environment of the installation location of the housing 10 . In this embodiment, the housing 10 is installed outdoors as an example. For this reason, the cover 30 is formed in a shape that covers the front of the ventilation hole 22a, the upper side of the ventilation hole 22a, and both sides of the ventilation hole 22a in order to prevent rainwater from entering. Here, the front of the ventilation hole 22a is the outside of the housing body 20 in the axial direction of the ventilation hole 22a and the outside of the housing body 20 in the left-right direction. The side of the ventilation hole 22 a referred to here is the front-rear direction of the housing body 20 .

FIG. 4 is a perspective view showing the cover 30 used for the housing 10. As shown in FIG. FIG. 5 is an exploded perspective view of the cover 30. As shown in FIG. Specifically, as shown in FIGS. 4 and 5, the cover 30 includes a cover body 31 that covers the ventilation holes 22a, and a communicating portion 32 that is provided in the cover body 31 and communicates the inside and outside of the cover body 31. have.

The cover body 31 has a front wall portion 33 , two side wall portions 34 , a ceiling wall portion 35 , a lower wall portion 36 and a flange portion 37 .

The front wall portion 33 is arranged in front of the ventilation holes 22a so as to overlap the ventilation holes 22a. As an example, the front wall portion 33 is configured in a rectangular plate shape.
Each of the two side wall portions 34 is arranged on each side of the ventilation hole 22a. As an example, each of the two side wall portions 34 is configured in a trapezoidal plate shape.
The ceiling wall portion 35 is arranged above and in front of the ventilation hole 22a. As an example, the ceiling wall portion 35 is configured in a rectangular plate shape.

The lower wall portion 36 is arranged below the ventilation hole 22a. A gap-like communicating portion 32 is provided between the lower wall portion 36 and the outer surface 22b. The communicating portion 32 communicates the inside and the outside of the cover 30 . As an example, the cover body 31 is hermetically sealed except for the communicating portion 32 .

The flange portion 37 is connected to the edges 34 a of the two side wall portions 34 and the edge 35 a of the ceiling wall portion 35 . The flange portion 37 is formed with a hole 37a through which the shaft portion of the screw 5 is passed. The flange portion 37 seals with the outer surface 22b when fixed to the outer surface 22b. The flange portion 37 may be secured to the outer surface 22b via a seal.

In the cover 30 configured in this way, as an example, the two side wall portions 34, the ceiling wall portion 35, and the flange portion 37 are integrally molded. Further, the front wall portion 33 and the lower wall portion 36 are integrally formed.

As shown in FIG. 5 , the front edge portions 34 b of the two side wall portions 34 and the front edge portion 35 b of the ceiling wall portion 35 are configured to extend inward of the cover 30 . A threaded hole 34c into which the screw 5 is screwed is formed in the front edge portion 34b.

A hole 33 a through which the screw 5 is inserted is formed in the peripheral edge of the front wall portion 33 . The front wall portion 33, the two side wall portions 34, and the ceiling wall portion 35 are fixed by fastening with screws 5 and screw holes 34c of the front edge portion 34b.

The cover 30 configured in this manner is detachably attached to the outer surface 22b of the side wall portion 22 with screws 5. As shown in FIG. The screw 5 is an example of a fixing member that detachably fixes the cover 30 to the housing body 20 .

At least part of the cover 30 configured in this way is arranged above the center C1 in the vertical direction of the outer surface 22b. In the present embodiment, as an example, the entire structure of the cover 30 is arranged above the vertical center C1 of the outer surface 22b. The term "above" as used herein means the upper side in the direction of gravity when the housing 10 is installed at the installation location P. As shown in FIG.

Further, the cover 30 is configured in a shape projecting from a side wall plate 42 (described later) of the awning portion 40 in a direction away from the outer surface 22b. Specifically, the tip 38 of the cover body 31 in the projecting direction with respect to the outer surface 22b is arranged at a position away from the side wall plate 42 with respect to the outer surface 22b. For this reason, the two side wall portions 34 and the ceiling wall portion 35 of the cover main body 31 are arranged so that the tip 38 of the cover 30 exceeds the side wall plate 42 and is arranged outside, and when the housing 10 falls down, the tip 38 is the first one. has a dimension that makes contact with the ground at the installation location P.

The cover 30 configured in this manner is configured to be able to absorb external impact. In the present embodiment, the cover 30 is configured to be more easily deformed than the housing body 20 against an external force as a configuration capable of absorbing external impact.
When the cover 30 is configured to be deformed more easily than the housing main body 20 against an external force, an external force is applied to the cover 30, such as when the housing 10 overturns or comes into contact with another adjacent housing 10 during transportation. Secondly, it is possible to prevent the housing body 20 from being deformed or destroyed due to the cover 30 being deformed or destroyed by an external force. That is, when an external force is applied to the cover 30, the cover 30 is not deformed or destroyed, and the housing body 20 is not deformed or destroyed by the load transmitted to the housing body 20 through the cover 30. is.
Specifically, the cover 30 is made of a material that is easily deformed by an external force, so that the cover 30 is more easily deformed by the external force than the housing body 20 . A specific example of the material is at least one of copper, aluminum, and resin. More specifically, each of the front wall portion 33, the two side wall portions 34, the ceiling wall portion 35, and the bottom wall portion 36 is made of any one of copper, aluminum, and resin. . Note that the front wall portion 33, the two side wall portions 34, the ceiling wall portion 35, and the lower wall portion 36 are not limited to being made of the same material. For example, the front wall portion 33 and the lower wall portion 36 may be made of aluminum, and the two side wall portions 34 and the ceiling wall portion 35 may be made of copper. For example, polycarbonate is used as the resin.

In this embodiment, the cover 30 has the flange portion 37, but the flange portion 37 may be made of a material other than copper, aluminum, and resin. It may be composed of any one of resins.

Returning to FIG. 3 , the shade section 40 has a front wall plate 41 , two side wall plates 42 , a rear wall plate 43 and a ceiling plate 44 .

The front wall plate 41 is fixed to the front surface of the housing body 20 by screws 5, for example. The front wall plate 41 is arranged forward of the front surface of the housing body 20 .
One of the two side wall plates 42 is fixed to the fixing portion 22 c of one side wall portion 22 of the housing body 20 with screws 5 . The other side wall plate 42 is fixed to the fixing portion 22 c of the other side wall portion 22 with screws 5 . Further, each of the two side wall plates 42 is formed with a hole 42a in which a part of the cover 30 is arranged. The side wall plate 42 is arranged outside the side wall portion 22 in the left-right direction.

The rear wall plate 43 is fixed to the rear wall portion 23 with screws 5 . The rear wall plate 43 is arranged behind the rear wall portion 23 .
The ceiling plate 44 is fixed to the ceiling wall portion 24 with screws 5 . The ceiling plate 44 is arranged above the ceiling wall portion 24 .

The leg portion 50 is provided at the lower end of the housing body 20, as shown in FIGS. The leg 50 is installed at the installation location P. As shown in FIG. The leg portion 50 is composed of, for example, two channel members 51 having a C-shaped cross section.

Next, an example of behavior of the housing 10 when the housing 10 falls will be described with reference to FIG. 6 .
FIG. 6 is a front view showing a state in which the housing 10 is overturned. In FIG. 6 , the case 10 in a state of being toppled is indicated by a two-dot chain line, and the case 10 in a state before being toppled is indicated by a solid line. When the housing 10 is tilted so that one side wall plate 42 is placed downward, the tip 38 of the cover 30 located outside the side wall plate 42 may hit the ground of the installation location P or the like. contact first.

Therefore, a load is applied to the cover 30 when the tip 38 comes into contact with the ground or the like. Furthermore, the cover 30 is relatively soft because it is made of at least one of copper, aluminum, and resin. Therefore, when the cover 30 is sufficiently deformed or destroyed, the load applied by the overturning is sufficiently absorbed by the deformation of the cover 30, so that the load can be absorbed by the awning part 40, the housing body 20, and the housing body 20. It is possible to suppress transmission to the object housed in the housing 10 .

When the cover 30 needs to be replaced due to deformation or the like, the screw 5 can be removed and the cover 30 can be replaced with another cover 30 .

Next, the behavior of the housing 10 when transporting the rack unit to the installation site P will be described. The plurality of rack units are fixed with a wooden frame or the like in a state of being arranged close to each other, and placed on a transportation vehicle such as a truck.

When each of the plurality of rack units shakes due to vibrations or the like during transportation, the cover 30 comes into contact with another adjacent rack unit. When the shaking is large, the cover 30 is deformed or destroyed to absorb the load caused by the contact. Suppressed to be transmitted.

In the housing 10 configured in this manner, the cover 30 projects outward from the shade portion 40, so the cover 30 first comes into contact with the ground or another rack unit. Furthermore, since the cover 30 is configured to be easily deformed or destroyed by a load applied from the outside, the load is sufficiently absorbed by the deformation or destruction of the cover 30, so that the load applied during transportation or falling is reduced. , the awning 40 , the housing main body 20 , and the electronic devices housed in the housing 10 . For this reason, damage to the awning part 40 , the housing body 20 , and the objects contained in the housing 10 can be suppressed.

Furthermore, by arranging the cover 30 above the center C1 in the vertical direction of the outer surface 22b of the side wall portion 22, after the housing 10 falls and the tip 38 of the cover 30 contacts the ground or the like, the housing 10 However, further rotation with the cover 30 as a fulcrum can be prevented. Therefore, it is possible to prevent the awning part 40 and the housing body 20 from coming into contact with the ground or the like.

Furthermore, since the cover 30 is detachably fixed to the housing body 20 with the screws 5, the cover 30 can be easily replaced. Furthermore, since only the cover 30 can be replaced, the housing 10 does not have to be replaced when the cover 30 needs to be replaced.

Furthermore, the cover 30 absorbs the load applied during transportation, so that multiple rack units can be safely transported. Therefore, it is possible to simplify the structure of the wooden frame used for transporting the plurality of rack units and fixing the plurality of rack units, so that the cost for transporting the plurality of rack units can be reduced.

In this embodiment, the cover main body 31 is made of at least one of copper, aluminum, and resin, thereby forming an example of a shock absorbing structure that absorbs external load.

In addition, in the case where the cover 30 further includes the sunshade portion 40 outside the housing body 20 as in the present embodiment, the cover 30 will not be exposed to the sunshade portion 40 when the housing 10 falls over. The amount of protrusion with respect to the outer surface 22b is determined so as to make contact with the ground or the like earlier than the outer surface 22b.

The awning part 40 is an example of a configuration that is provided on the housing body 20 and arranged outside the outer surface of the housing body 20 . Even if the housing 10 has a structure other than the awning part 40, which is arranged outside the outer surface of the housing body 20, the cover 30 will not be exposed to this structure when it is overturned or shaken during transportation. The amount of protrusion is determined so as to contact the ground or the like earlier than.

<Second embodiment>
Next, a second embodiment of the housing 10 will be described with reference to FIG. In addition, the housing 10 according to the second embodiment has a configuration in which a part of the cover 30 is configured in a bellows shape. It is different from the case 10 according to In the second embodiment, the bellows-like portion of the cover 30 is deformed such as by shrinking to absorb impact. For this reason, among the configurations of the housing 10 of the second embodiment, the same configurations as those of the housing 10 according to the first embodiment described above will be described with the same reference numerals, and the description and illustration thereof will be omitted. Omit as appropriate. The structure of the housing 10 of this embodiment is the same as that of the first embodiment except for the cover 30 .

FIG. 7 is a perspective view showing the cover 30 of the second embodiment. As shown in FIG. 7 , the cover 30 has a front wall portion 33 , a bellows-shaped bellows portion 39 , and a flange portion 37 .

The front wall portion 33 closes the opening at one end of the bellows portion 39 .
The flange portion 37 is provided at the edge of the opening at the other end of the bellows portion 39 .
The bellows portion 39 is made of metal, for example. The bellows portion 39 constitutes, for example, two side wall portions 34 and a ceiling wall portion 35 . The lower surface of the bellows portion 39 is provided with a communicating portion 32 formed in a hole shape for communicating the inside and outside of the bellows portion 39 .

Although the material of the cover 30 is not limited, the cover 30 may be made of steel, for example. Alternatively, the cover 30 may be made of a material that is easily deformed by an external force as in the first embodiment. A specific example of a material that is easily deformed by an external force is at least one of copper, aluminum, and resin. The resin is, for example, polycarbonate. For example, the front wall portion 33 may be configured to be easily deformed or destroyed by forming the front wall portion 33 from any one of copper, aluminum, and resin.

In the cover 30 of this embodiment, the bellows portion 39 shrinks when the tip 38 comes into contact with the ground or the like or contacts with another housing 10 when the housing 10 is overturned or shaken during transportation or the like. Therefore, the load can be sufficiently absorbed. Therefore, it is possible to suppress the load from being transmitted to the awning part 40 , the housing main body 20 , and the object in the housing 10 . For this reason, damage to the awning part 40 , the housing body 20 , and the receiving part in the housing 10 can be suppressed.

Thus, in the cover 30 of the present embodiment, the bellows portion 39 constitutes an example of a shock absorbing structure that absorbs external shocks.

<Third Embodiment>
Next, the housing 10 according to the third embodiment will be described with reference to FIGS. 8 and 9. FIG. In addition, the housing 10 according to the third embodiment has a structure in which each part constituting the cover main body 31 is fixed by being adhered to maintain the shape of the cover 30. In this respect, each part is integrated. It is different from the case 10 according to the first embodiment described above, which is configured to maintain the shape of the cover 30 by being formed or by being fixed with screws 5 . In the third embodiment, the impact is absorbed by destroying the adhesive fixation of the cover body 31 . For this reason, among the configurations of the housing 10 of the third embodiment, the same configurations as those of the housing 10 according to the above-described first embodiment will be described with the same reference numerals, and the description and illustration thereof will be omitted. Omit as appropriate. The housing 10 of this embodiment has the same configuration as that of the first embodiment except for the cover 30 .

FIG. 8 is a perspective view showing the cover 30 of this embodiment. FIG. 9 is a perspective view showing a disassembled state of the cover 30 of this embodiment.
As shown in FIGS. 8 and 9 , the cover 30 of this embodiment has a front wall portion 33 , two side wall portions 34 , a ceiling wall portion 35 and a flange portion 37 . The front wall portion 33, the two side wall portions 34, and the ceiling wall portion 35 are bonded and fixed by an adhesive layer 60 composed of an adhesive, an adhesive sheet, or the like. An opening at the lower end of the cover 30 serves as the communicating portion 32 . In addition, although the cover 30 of the present embodiment does not have the lower wall portion 36 as an example, it may have the lower wall portion 36 .

Further, in the present embodiment, the material constituting each part of the cover 30, such as the front wall part 33, is not limited, but may be steel, for example. Alternatively, the material forming each part of the cover 30 may be made of a material that is easily deformed by an external force, as in the first embodiment. A specific example of a material that is easily deformed by an external force is at least one of copper, aluminum, and resin. The resin is, for example, polycarbonate. Each part of the cover 30 of the present embodiment is made of at least one of copper, aluminum, and resin, so that the cover 30 may be easily deformed or destroyed by a load.

The cover 30 of the present embodiment is designed so that when the housing 10 falls over or shakes during transportation or the like, the front wall portion 33 and two The fixed combination of the side wall portion 34 and the ceiling wall portion 35 is disassembled by breaking the fixation by at least one adhesive layer 60 .

For example, the front wall portion 33 and the ceiling wall portion 35 are disassembled. In this manner, the cover 30 sufficiently absorbs the load applied by overturning or shaking by disassembling at least one of the fixed combinations of the front wall portion 33, the two side wall portions 34, and the ceiling wall portion 35. Therefore, damage to the awning part 40, the housing body 20, and the objects housed in the housing 10 can be suppressed.

The adhesive strength of the adhesive layer 60 may be set to such an adhesive strength that the cover 30 is completely disassembled as shown in FIG. The adhesive strength can be determined, for example, by experiments. When the cover 30 is completely disassembled, the load is further absorbed by the cover 30, so that the load can be more easily transmitted to the awning part 40, the housing body 20, and the objects contained in the housing 10. can be further suppressed.

As described above, in the present embodiment, the fixing structure by the adhesive layer 60 of each part of the cover 30 constitutes an example of a shock absorbing structure that absorbs shock from the outside.

<Fourth Embodiment>
Next, the housing 10 according to the fourth embodiment will be explained using FIG. The housing 10 according to the fourth embodiment has a structure in which the cross-sectional area of the cover 30 perpendicular to the direction in which it projects from the outer surface 22b increases toward the tip of the projecting direction. It differs from the housing 10 according to the embodiment. In the fourth embodiment, the cross-sectional area of the cover 30 perpendicular to the projecting direction with respect to the outer surface 22b is configured to increase toward the tip of the projecting direction. Absorb. For this reason, among the configurations of the housing 10 of the fourth embodiment, the same configurations as those of the housing 10 according to the first embodiment described above will be described with the same reference numerals, and the description and illustration thereof will be omitted. Omit as appropriate. The housing 10 of this embodiment has the same configuration as that of the first embodiment except for the cover 30 .

FIG. 10 is a perspective view showing the cover 30 of the fourth embodiment. As shown in FIG. 10 , the cover 30 has a front wall portion 33 , two side wall portions 34 and a ceiling wall portion 35 . For example, the front wall portion 33, the two side wall portions 34, and the ceiling wall portion 35 are configured in a plate shape with a constant thickness. An opening at the lower end of the cover 30 functions as the communicating portion 32 .

The length L1 of the ceiling wall portion 35 of the cover 30 along the direction perpendicular to the direction of projection from the outer surface 22b of the cover 30 gradually increases from the outer surface 22b toward the tip 38 . Assuming that the length of the edge of the ceiling wall portion 35 on the side of the outer surface 22b is L1a and the length of the tip of the ceiling wall portion 35 is L1b, L1b>L1a.

The length L2 of each of the two side wall portions 34 in the direction orthogonal to the direction of projection with respect to the outer surface 22b gradually increases toward the tip 38 . If the length of the edge of the side wall portion 34 on the side of the outer surface 22b is L2a and the length of the tip of the side wall portion 34 is L2b, then L2b>L2a.

Since the ceiling wall portion 35 and the two side wall portions 34 are configured as described above, the cover 30 is configured in the shape of a truncated quadrangular pyramid. A cross-section of the cover 30 perpendicular to the direction of projection with respect to the outer surface 22b increases from the outer surface 22b toward the tip 38 .

The cover 30 is configured in a shape that widens outward from the outer surface 22b by increasing the cross section perpendicular to the projecting direction from the outer surface 22b toward the tip 38 from the outer surface 22b.

Therefore, the housing 10 is likely to be deformed or destroyed by a load applied when it comes into contact with the ground or the like when it falls over, or a load applied when it comes into contact with another rack unit due to shaking. This deformation includes, for example, buckling deformation. Destruction includes, for example, destruction avoiding the corners of the ceiling wall portion 35 and the side wall portion 34 . Therefore, damage to the awning part 40, the housing body 20, and the objects housed in the housing 10 can be suppressed.

In the present embodiment, as an example of a configuration in which the cross section of the cover 30 perpendicular to the projecting direction with respect to the outer surface 22b increases toward the tip 38 from the outer surface 22b, L1b>L1a and L2b>L2a. has been described but not limited to. For example, the configuration may be such that L1b>L1a and L2b>L2a. Alternatively, the cover 30 may be configured in a truncated cone shape.

Moreover, in the present embodiment, the material forming the cover 30 is not limited, but may be steel, for example. Alternatively, the material forming the cover 30 may be a material that is easily deformed by an external force as in the first embodiment. Specific examples of materials are at least one of copper, aluminum, and resin. The resin is, for example, polycarbonate. Further, in the present embodiment, the structure of each part of the cover 30 may be fixed by adhesion as in the above-described third embodiment.

<Modification>
In the first to fourth embodiments, the length of the leg 50 in the front-rear direction is the same as the length of the housing body 20 in the front-rear direction, and the front end of the leg 50 extends from the housing. Although it is arranged at the same position as the front end of the main body 20 and at the same position as the rear end of the housing body 20 of the leg portion 50, it is not limited to this.
FIG. 11 is a diagram showing the configuration of a modification. As in the modification shown in FIG. 11 , the length of the leg 50 in the front-rear direction is longer than the length of the housing body 20 in the front-rear direction, and the front end of the leg 50 is positioned forward of the front end of the housing body 20. , and the rear end of the leg portion 50 may be arranged behind the rear end of the housing body 20 . The front-rear direction in which the leg portion 50 extends is an example of a direction orthogonal to the axial direction of the ventilation hole 22a and the vertical direction.

With the configuration of the legs 50 shown in FIG. 11 , work spaces can be secured in front and rear of the housing body 20 . That is, by arranging a part of the legs 50 in front and rear of the housing body 20 respectively, other structures can be arranged in the front and rear parts of the housing body 20 at the installation location P. I can't. Therefore, it is possible to use the front and rear areas of the housing body 20 as work spaces.

Furthermore, since the length of the leg portion 50 in the front-rear direction is longer than the length of the housing body 20 in the front-rear direction, the housing 10 is prevented from falling forward or backward and swinging in the front-rear direction. Then, when it falls, it falls to the side where the cover 30 is provided. When swinging, it will swing to the side. Thus, the legs 50 make it possible to control the direction in which the housing 10 falls and the direction in which it swings.

Further, the housing 10 of the first to fourth embodiments described above may be configured to further include a fan. A fan may be provided in the ventilation hole 22a. The fan efficiently ventilates the inside of the housing 10 .

Further, the housings 10 of the above-described first to fourth embodiments are, as an example, designed to be installed outdoors. Therefore, in order to prevent rainwater from entering the housing 10 through the ventilation holes 22a, the cover 30 covers the front of the ventilation holes 22a, the upper side of the ventilation holes 22a, and both sides of the ventilation holes 22a. It has a covering configuration. Further, a lower wall portion 36 is provided in order to prevent the communicating portion 32 from increasing in size while increasing the amount of protrusion of the cover 30 with respect to the outer surface 22b.

However, the cover 30 is not limited to this configuration. The cover 30 may be configured according to the installation location P where the housing 10 is installed. For example, if the cover 30 is designed to be installed indoors and it is not assumed that water will enter from the side, the cover 30 may be configured without the two side wall portions 34 . As described above, the shape of the cover 30 may be determined according to the environment of the installation location P so as to cover the ventilation holes 22a.

In addition, in the first to fourth embodiments, the cover 30 is provided in a part of the region between the front end and the rear end at a position above the center C1 in the vertical direction of the outer surface 22b of the side wall portion 22. Yes, but not limited to. The cover 30 may be configured, for example, in a shape extending from the front end to the rear end at a position above the center C1 in the vertical direction of the outer surface 22b.

In addition, in the first to fourth embodiments, as an example, the ventilation holes 22a are formed in the lateral wall portions 22 of the housing body 20, but the present invention is not limited to this. The ventilation holes 22a may be formed in the rear wall portion 23, for example. In this case, the cover 30 is provided on the rear wall portion 23 .

Moreover, in the first to fourth embodiments, the cover 30 is configured to cover one ventilation hole 22a, but the present invention is not limited to this. In the case of a configuration in which a plurality of ventilation holes 22a are formed in the side wall portion 22, the cover 30 may be configured in a shape that covers the plurality of ventilation holes 22a.

According to at least one embodiment or modified example described above, having the cover 30 makes it possible to suppress damage due to a load applied from the outside.

While several embodiments of the invention have been described, these embodiments have been presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and equivalents thereof.
The description equivalent to the invention described in the original claims of the present application is added below.
[1] A housing body including a side wall portion in which a ventilation hole is formed above the center in the vertical direction;
A cover body formed of a shock absorbing structure that covers the ventilation holes in the side wall portion of the housing body and absorbs external shocks, and a cover body that communicates with the ventilation holes of the housing body. a cover having a communicating portion communicating between the inside and outside of the main body;
a fixing member that detachably attaches the cover to the outer surface of the housing body;
An electronic equipment enclosure.
[2] The shock absorbing structure of the cover body is a shock absorbing structure in which the cover body is made of a material that deforms more easily than the housing body due to an external force.
The electronic device housing according to [1].
[3] The electronic device casing according to [1], wherein the shock absorbing structure of the cover body is a shock absorbing structure configured in a bellows shape that can expand and contract along a direction projecting outward from the outer surface.
[4] The electronic device according to [1], wherein the impact absorbing structure of the cover body is a shock absorbing structure in which the cover body is composed of a plurality of members, and the plurality of members are fixed to each other by adhesion. housing.
[5] In [1], the impact absorbing structure of the cover body is configured such that a cross-sectional area perpendicular to the projecting direction of the cover body with respect to the outer surface gradually increases toward the projecting end. An electronic device enclosure as described.
[6] The case body according to [1], wherein the case body has a long leg with respect to the case body in a direction orthogonal to each of the axial direction and the vertical direction of the ventilation hole at the lower end. electronics housing.
[7] a cover body having a shock absorbing structure that covers the ventilation holes provided in the side walls of the housing body and absorbs external shock;
a communicating portion that communicates with the inside and outside of the housing body by communicating with the ventilation hole of the housing body;
A cover for an electronic device enclosure comprising:
[8] The impact absorption structure of the cover body is an impact absorption structure in which the cover body is made of a material that deforms more easily than the housing body due to an external force.
A cover for the electronic device housing according to [7].
[9] The cover for an electronic device housing according to [7], wherein the shock absorbing structure of the cover main body is a shock absorbing structure configured in a bellows shape that can expand and contract along a direction projecting outward from the outer surface. .
[10] The electronic device according to [7], wherein the impact absorbing structure of the cover body is a shock absorbing structure in which the cover body is composed of a plurality of members, and the plurality of members are fixed to each other by adhesion. housing cover.
[11] In [7], the shock absorbing structure of the cover body is configured such that a cross-sectional area perpendicular to the projecting direction of the cover body with respect to the outer surface gradually increases toward the projecting end. A cover for an electronic device enclosure as described.

DESCRIPTION OF SYMBOLS 10... Housing 20... Housing main body 22... Side wall part 22a... Ventilation hole 22b... Outer surface 30... Cover 31... Cover main body 32... Communicating part 38... Tip 39... Accordion part 40... Awning part 41 Front wall plate 42 Side wall plate 42a Hole 43 Rear wall plate 44 Ceiling plate 50 Leg 60 Adhesive layer C1 Center P Installation place.

Claims (7)

a housing body including a side wall portion having a ventilation hole formed above the center in the vertical direction;
It is provided so as to cover the ventilation hole in the side wall portion of the housing body, protrudes outward from the housing body, and is made of a material and shape that is more easily deformable than the housing body. A cover body formed of a shock-absorbing structure that absorbs an impact from an external force when the housing body is overturned, and a communicating portion that communicates with the inside and outside of the housing body by communicating with the ventilation holes of the housing body. a cover comprising
a fixing member that detachably attaches the cover to the outer surface of the housing body;
with
The shock absorbing structure of the cover body is a shock absorbing structure configured in a bellows shape that can expand and contract along a direction projecting outward from the outer surface.
electronics housing. a housing body including a side wall portion having a ventilation hole formed above the center in the vertical direction;
It is provided so as to cover the ventilation hole in the side wall portion of the housing body, protrudes outward from the housing body, and is made of a material and shape that is more easily deformable than the housing body. A cover body formed of a shock-absorbing structure that absorbs an impact from an external force when the housing body is overturned, and a communicating portion that communicates with the inside and outside of the housing body by communicating with the ventilation holes of the housing body. a cover comprising
a fixing member that detachably attaches the cover to the outer surface of the housing body;
with
The shock absorbing structure of the cover body is a shock absorbing structure in which the cover body is composed of a plurality of members, and the plurality of members are fixed to each other by adhesion .
electronics housing. a housing body including a side wall portion having a ventilation hole formed above the center in the vertical direction;
It is provided so as to cover the ventilation hole in the side wall portion of the housing body, protrudes outward from the housing body, and is made of a material and shape that is more easily deformable than the housing body. A cover body formed of a shock-absorbing structure that absorbs an impact from an external force when the housing body is overturned, and a communicating portion that communicates with the inside and outside of the housing body by communicating with the ventilation holes of the housing body. a cover comprising
a fixing member that detachably attaches the cover to the outer surface of the housing body;
with
The impact-absorbing structure of the cover body is configured such that a cross-sectional area perpendicular to the projecting direction of the cover body with respect to the outer surface gradually increases toward the projecting end .
electronics housing. 2. The electronic device casing according to claim 1, wherein said casing body has long legs in a direction orthogonal to each of the axial direction and vertical direction of said ventilation holes at a lower end thereof. body. In a cover attached to a housing body including a side wall portion in which ventilation holes are formed,
It is provided so as to cover the ventilation holes provided in the side wall of the housing body, and is provided so as to protrude outward from the housing body, and is made of a material and shape that is easier to deform than the housing body. a cover body formed of a shock absorbing structure that absorbs shock from an external force when the housing body falls;
a communicating portion that communicates with the inside and outside of the housing body by communicating with the ventilation hole of the housing body;
with
The shock absorbing structure of the cover body is a shock absorbing structure configured in a bellows shape that can expand and contract along a direction projecting outward from the outer surface of the housing body,
The cover of the electronic equipment housing. In a cover attached to a housing body including a side wall portion in which ventilation holes are formed,
It is provided so as to cover the ventilation holes provided in the side wall of the housing body, and is provided so as to protrude outward from the housing body, and is made of a material and shape that is easier to deform than the housing body. a cover body formed of a shock absorbing structure that absorbs shock from an external force when the housing body falls;
a communicating portion that communicates with the inside and outside of the housing body by communicating with the ventilation hole of the housing body;
with
The shock absorbing structure of the cover body is a shock absorbing structure in which the cover body is composed of a plurality of members, and the plurality of members are fixed to each other by adhesion .
The cover of the electronic equipment housing. In a cover attached to a housing body including a side wall portion in which ventilation holes are formed,
It is provided so as to cover the ventilation holes provided in the side wall of the housing body, and is provided so as to protrude outward from the housing body, and is made of a material and shape that is easier to deform than the housing body. a cover body formed of a shock absorbing structure that absorbs shock from an external force when the housing body falls;
a communicating portion that communicates with the inside and outside of the housing body by communicating with the ventilation hole of the housing body;
with
The impact-absorbing structure of the cover body is configured such that a cross-sectional area perpendicular to the projecting direction of the cover body with respect to the outer surface of the housing body gradually increases toward the projecting end .
The cover of the electronic equipment housing.

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