JP5957304B2 - Electronic device holding structure and desk system - Google Patents

Description

  The present invention relates to an electronic device holding structure and a desk system that is used in a work space such as an office or a trader room, and stores a plurality of electronic devices in an electronic device storage section installed in a space below a desk top plate.

  2. Description of the Related Art Conventionally, in office spaces such as offices and trader rooms, desk systems in which a plurality of electronic devices are housed in an electronic device housing portion installed in a space below the desk top plate are well known. In addition, in such a desk system, as disclosed in, for example, Patent Document 1 and Patent Document 2, a desktop computer main body or the like as a plurality of electronic devices (hereinafter simply referred to as “PC”). Is known to be installed adjacent to one pedestal.

JP 2001-008744 A JP 2001-144456 A

  However, in the above-described desk system, a plurality of PCs placed on one pedestal are independently fixed to the pedestal by a belt-like fixing belt, so that there is a problem that fixing work is troublesome. It was.

  Moreover, since it is necessary to fix the fixing belt end part for each PC to the pedestal between adjacent PCs, a large gap is required to fix the fixing belt end part to the pedestal. There has been a problem that the use efficiency is poor and the number of units that can be placed is limited.

  Therefore, when mounting a plurality of electronic devices on a single pedestal, fixing them together with one (or a pair) of belt-like fixing belts simplifies the fixing operation and narrows the electronic range. The space utilization efficiency of the device storage unit can be improved.

  However, if a plurality of electronic devices are arranged adjacent to each other and fastened together with a belt, the adjacent electronic devices are brought into close contact with each other by tightening the belt, and the heat dissipation efficiency of heat generated from the electronic devices is significantly deteriorated. It had the problem of end.

  In order to solve such a problem, it is conceivable to provide a sufficient space between the electronic devices by interposing a spacer between the electronic devices to appropriately dissipate heat from the electronic devices. Further, the heights of the electronic devices arranged adjacent to each other are not only the same, but may be different. Therefore, it is necessary to secure the space of the electronic device using a spacer that can be interposed even when the height of the electronic device is different.

  However, in order to interpose spacers between electronic devices that have not only the same height but also different heights, it is necessary to prepare various spacers having different shapes. In addition to soaring, there is a problem that the fixing work with the fixing belt becomes complicated.

  The present invention has been made in view of the above-described problems. Even when the heights of electronic devices are different when a plurality of electronic devices are spanned by a fixing belt and the electronic devices are fixed to a pedestal, one kind of It is an object of the present invention to provide an electronic device holding structure and a desk system that can secure an interval between adjacent electronic devices with a spacer and can efficiently discharge heat generated from the electronic device.

  In order to achieve the above object, the electronic device holding structure of the present invention is an electronic device holding structure for fixing a plurality of electronic devices arranged at intervals to a pedestal, and both ends are fixed to the pedestal, A fixed belt that is stretched over the plurality of electronic devices arranged, and a spacer that is interposed between the electronic devices and maintains a distance between adjacent electronic devices, the spacer having a plate-like base portion A first abutting portion that protrudes from one surface of the base portion toward one surface side and is capable of abutting against each of the opposing side surfaces of the adjacent electronic device; and from the side end portion of the base portion toward the other surface side. And a second abutting portion that protrudes and can abut against at least one side surface of the adjacent electronic device.

According to the electronic device holding structure of the present invention, since the first contact portion that can contact each side surface of the adjacent electronic device is provided, when the height of the electronic device is the same, By disposing the one abutting portion and the electronic device in contact with each other, it is possible to secure a separation interval between the electronic devices even when the electronic device is fixed to the base with the fixing belt.
Further, when the heights of the electronic devices are different, the spacing between the electronic devices is increased by disposing the second contact portion so as to be locked to the upper surface of the lower electronic device. It is possible to secure. As described above, even when the heights of the adjacent electronic devices are different, it is possible to secure the spacing between the electronic devices with one kind of spacer and efficiently discharge the heat generated from the electronic devices.

In addition, a belt insertion part through which a fixing belt can be inserted may be provided in the second contact part.
By providing the belt insertion portion in the second contact portion in this way, the fixing belt can be inserted into the belt insertion portion. Therefore, when the spacer is arranged between the electronic devices and the electronic device is fixed with the fixing belt, the spacer Can be prevented from falling off, and workability is improved. Furthermore, even when the spacer is used for a long period of time with the spacer installed, the spacer can be prevented from falling off.

Furthermore, a third contact portion may extend from the second contact portion in a direction orthogonal to the second contact portion.
By providing such a third abutting portion, the mounting direction of the spacer is changed, and the second abutting portion and the third abutting portion are arranged so as to abut on the side surface of the electronic device. The separation interval of the electronic device can be set to the height of the third contact portion protruding from the contact portion.

The height protruding from the base portion of the first contact portion may be set to be different from the width of the first contact portion.
When the height protruding from the base of the first abutting portion and the width of the first abutting portion are different, it is possible to reliably change the separation interval of the electronic device by changing the mounting direction of the spacer. .

Moreover, the latching | locking part which protrudes in the direction where the said base part extends from the side edge part of the said base part, and can be latched on the upper surface of an electronic device may be provided.
By providing such a locking portion, the spacer can be arranged by locking the locking portion on the upper surface of the electronic device, and the spacer is prevented from falling off, so that the spacer can be securely placed between the electronic devices. It is possible to install.

  The desk system of the present invention includes a desk top plate on which a monitor is installed, an electronic device storage unit installed in a space below the desk top plate, and a plurality of different heights disposed in the electronic device storage unit. A base on which the electronic device is placed, and the electronic device holding structure described above holds the interval between the electronic devices, and each of the plurality of electronic devices is fixed to the base. It is said.

  According to the desk system of the present invention, even when electronic devices of various heights are arranged in the electronic device storage section below the desk top plate, it is possible to secure the interval between adjacent electronic devices with one type of spacer. it can.

  According to the present invention, when a plurality of electronic devices are spanned by a fixing belt and the height of the electronic device is different when the electronic device is fixed to the pedestal, the interval between adjacent electronic devices is ensured by one kind of spacer. In addition, it is possible to provide an electronic device holding structure and a desk system capable of efficiently discharging heat generated from the electronic device.

It is explanatory drawing of the desk system which employ | adopted the holding structure of the electronic device which concerns on 1st embodiment of this invention. It is sectional drawing of the desk system which employ | adopted the holding structure of the electronic device which concerns on 1st embodiment of this invention. It is explanatory drawing seen from the plane direction of the desk system which employ | adopted the holding structure of the electronic device which concerns on 1st embodiment of this invention. It is a side view of the right-and-left frame in the desk system concerning a first embodiment of the present invention. 1 shows a pedestal applied to a desk system according to a first embodiment of the present invention, in which (A) is a plan view of a large pedestal in a state where an electronic device is fixed, and (B) is a small view in a state where the electronic device is fixed. It is a top view of a size base. The base applied to the desk system which concerns on 1st embodiment of this invention is shown, (A) is a top view of a base, (B) is a front view of a base, (C) is a side view of a base. The fixed belt applied to the desk system which concerns on 1st embodiment of this invention is shown, (A) is a front view of a fixed belt, (B) is a side view of a fixed belt. The spacer of 1st embodiment applied to the desk system of this invention is shown, (A) is a perspective view of the surface side of a spacer, (B) is a side view of a spacer. The spacer which concerns on 1st embodiment applied to the desk system of this invention is shown, (A) is a top view of the surface side of a spacer, (B) is a front view of a spacer. The use state figure of the spacer concerning a 1st embodiment is shown, and (A) is a front view in the state where the interval of opposition of the electronic equipment with which the upper surface was set to the same height is prescribed to the size of the width of a wide rib , (B) is a front view of a state in which the facing distance of the electronic device whose upper surface is set to the same height is defined as the height dimension of the wide rib, and (C) is set to have different heights on the upper surface. The front view of the state which has prescribed | regulated the opposing space | interval of the electronic device to the width dimension of the wide rib, (D) is the height of the wide rib to the opposing space | interval of the electronic device set to the height from which an upper surface differs. It is a front view of the state which has prescribed | regulated. The spacer which concerns on 2nd embodiment applied to the desk system of this invention is shown, (A) is a perspective view of the surface side of a spacer, (B) is a side view of a spacer. The use state figure of the spacer concerning a 2nd embodiment is shown, and (A) is a front view in the state where the interval of electronic equipment with which the upper surface was set to the same height is prescribed to the size of the width of a wide rib (B) is a front view of a state in which the facing distance of an electronic device whose upper surface is set to the same height is defined as the height dimension of the wide rib, and (C) is the same upper surface. It is a front view of the state which has prescribed | regulated the opposing space | interval of the electronic device set to height to the height dimension of a pair of wall part, (D) is the opposition of the electronic device set to the height from which an upper surface differs. It is a front view of the state which prescribed | regulated the space | interval to the width dimension of a wide rib, (E) prescribe | regulates the opposing space | interval of the electronic device by which the upper surface was set to different height to the height dimension of a wide rib. FIG. 6F is a front view of the electronic device with the upper surface set at different heights, and shows the distance between the opposing walls of the electronic device. It is a front view of a state where the dimensions are defined. The spacer which concerns on 3rd embodiment applied to the desk system of this invention is shown, (A) is a perspective view of the surface side of a spacer, (B) is a side view of a spacer.

  Next, an electronic device holding structure and a desk system according to a first embodiment of the present invention will be described with reference to the drawings. The following embodiments are preferred specific examples of the electronic device holding structure and the desk system of the present invention, and may have various technically preferable limitations, but the technical scope of the present invention is Unless otherwise specifically limited, the present invention is not limited to these embodiments. In addition, the constituent elements in the embodiments shown below can be appropriately replaced with existing constituent elements and the like, and various variations including combinations with other existing constituent elements are possible. Therefore, the description of the embodiment described below does not limit the contents of the invention described in the claims.

  FIG. 1 is an explanatory diagram of a desk system employing an electronic device holding structure according to the first embodiment of the present invention, and FIG. 2 is a desk system employing an electronic device holding structure according to the first embodiment of the present invention. FIG. 3 is an explanatory diagram viewed from a plane direction of a desk system that employs the electronic device holding structure according to the first embodiment of the present invention.

(overall structure)
1 to 3, a desk system 10 according to the present invention includes a desk main body 11 composed of a combination of a plurality of panels and frames, and a plurality of personal computers as electronic devices housed below the desk main body 11. A main body (hereinafter simply referred to as “PC”) 12 and a plurality of monitors 13 that are arranged vertically and horizontally above the desk main body 11 and connected to each PC 12 (electronic device) in pairs. I have. In the present embodiment, the PC 12 may have any function such as a terminal / server. Further, illustration of wiring other than the monitor 13 connected to the PC 12 and other peripheral devices is omitted. Further, since the PC 12 and the monitor 13 are general-purpose ones, detailed description thereof will be omitted here, and the case where the same functions are used will be described. Note that the heights of the PCs 12 arranged adjacent to each other may be the same or different.

  In the present embodiment, the desk system 10 employs an electronic device holding structure. The electronic device holding structure is a holding structure of the PC 12 for fixing a plurality of PCs 12 (electronic devices) arranged at intervals to the pedestals 40 and 41, both ends being fixed to the pedestals 40 and 41. And a spacer 60 (70, 80) that is interposed between the PCs 12 and holds the interval between the adjacent PCs 12.

  In the following description, the front side of the desk body 11 is the front side of the paper surface of FIG. 1, the back surface (or rear side) of the desk body 11 is the depth side of the paper surface of FIG. The upper and lower sides (top and bottom) of the desk main body 11 will be defined and described with respect to the upper and lower sides of the drawing of FIG. As shown in FIG. 3, in the state where the worker P is sitting on the monitor 13 in the working posture in front of the desk main body 11, the front-rear direction based on the worker P is the front-rear direction of the desk main body 11 (front The reverse of the back.

(Configuration of the desk body 11)
The desk main body 11 is disposed on the left and right sides of the desk main body 11, the flat desk top plate 14 serving as a work space for the worker P, the substantially rectangular left and right frames 15 and 16 disposed on the left and right of the desk main body 11. A back frame 17, a top plate frame 18 fixed to the left and right frames 15, 16 and supporting the bottom surface of the desk top plate 14, and a monitor base frame disposed above the back frame 17 so as to straddle the left and right frames 15, 16 19, a pair of monitor support frames 20 erected from the monitor base frame 19, a curtain plate 21 fixed to the back frame 17 and closing the back of the desk, and surrounded by the frames 15, 16, and 17. The electronic device storage portion 22 formed in the space below the desk top plate 14 and the electronic device storage portion 22 are stored in the left and right and center of the desk main body 11 in the storage spaces 22a and 22b. A pair of compartment frames 23 22c to the the partition (not isolated) form, and a, a door 24, 25, 26 to open the front side of the electronic device-accommodating portion 22 that is partitioned.

(Configuration of desk top 14)
The desk top plate 14 is formed in a flat plate shape using wood, resin, metal, or the like, and a discharge port 27 for communicating the electronic device storage portion 22 and the outside of the desk between the rear end and the monitor base frame 19. Is formed. In addition, a wiring tray and a wiring cover (both not shown) are disposed in the discharge port 27, and the electronic device storage unit ensures the appearance of the desk main body 11 so that the inside cannot be seen from the discharge port 27. The communication between the desk 22 and the outside of the desk is ensured.

(Configuration of left and right frames 15, 16)
The left and right frames 15 and 16 are substantially the same (symmetric). In the following, as shown in the side view of FIG. 4 (hereinafter, described with the left frame 15), the upper end of the front (front side) vertical frame 15a protrudes upward from the upper frame 15b extending forward and backward of the desk. A reinforcement frame 15c erected from the front side of the frame 15b supports the rear end side of the top plate frame 18. Further, the upper end of the rear vertical frame 15d also protrudes upward from the upper frame 15b, and the monitor base frame 19 (not shown in FIG. 4) is supported by the protruding end surface. A back frame 17 (not shown in FIG. 4) is supported on the inner surface of the desk of the rear vertical frame 15d. Further, the overall height of the desk main body 11 is adjusted so that the desk top plate 14 is horizontal on the lower end of the rear vertical frame 15d and the front bottom surface of the lower frame 15e (or the lower end of the front vertical frame 15a). A leg portion 28 is provided to enable this.

(Configuration of the back frame 17)
The back frame 17 is provided with a pair of reinforcing vertical frames 17a in the middle thereof. Duct frames 29 extending in the vertical direction are provided on both the left and right sides of the reinforcing vertical frame 17a and the inner surfaces of the left and right vertical frames 17b.

(Configuration of the top frame 18)
The top plate frame 18 is disposed along the left and right edge portions of the desk top plate 14, and a plurality of (three in the present embodiment) drawers 30 are provided so as to be slidable in the front-rear direction of the desk.

(Configuration of the monitor support frame 20)
The lower end of the monitor support frame 20 is fixed to the monitor base frame 19 by welding or the like. In the present embodiment, the monitor support frame 20 is divided into upper and lower parts, and the upper support frame 20b is connected to the lower support frame 20a by an inlay method or the like. Thereby, for example, the upper support frame 20b can be further connected to the upper end of the upper support frame 20b to form three stages in the vertical direction. Further, the support frames 20 a and 20 b support the monitor 13 via the monitor arm 31.

(Configuration of curtain plate 21)
The curtain plate 21 is composed of a thin metal plate or the like, and its periphery is fixed to the left and right frames 15 and 16 and the rear frame 17 by screws or the like. Further, the outer periphery of the lower end (15e) of the electronic device housing portion 22 extending from the lower end of the curtain plate 21 to the lower frames (15e) of the left and right frames 15 and 16 is prevented from leaking cold air to the outside by a packing 32 such as rubber.

(Configuration of electronic device storage unit 22)
The electronic device storage unit 22 is partitioned from the outside on the back of the desk by a curtain plate 21, and the left and right sides of the desk are partitioned from the outside by arranging side plates or partitions (both not shown) on the left and right frames 15 and 16. In addition, the front surface of the electronic device storage unit 22 is partitioned from the outside by doors 24, 25 and 26. At this time, the doors 24, 25, 26 are unitized with the partition frame 23, so that both ends are supported by the left and right frames 15, 16. The left and right doors 24 and 26 are disposed on the front side of the partition frame 23, and the central door 25 is disposed on the rear side of the partition frame 23. Thereby, the foot space of the worker P can be secured long in the depth direction below the front side of the desk top plate 14. Further, a packing 33 made of rubber or the like is provided at the lower ends of the doors 24, 25, and 26, so that cold air leakage from the electronic device storage portion 22 to the outside is suppressed. The doors 24, 25, 26 that open and close the desk front side of the electronic device storage unit 22 are, for example, the doors 24, 26 rotate around the adjacent left and right frames 15, 16, and the central door 25 is the desk. It rotates with one of the left and right as fulcrums.

  In the present embodiment, a cooling air blower opening 35 is provided in the floor surface 34 on which the desk main body 11 is installed below the electronic device storage unit 22, and the bottom surface of the floor surface 34 is connected to the duct (or By supplying cooling air from a cooling system that is separately arranged, a cooling air passage that reaches the air blowing port 35, the electronic device housing 22, the discharge port 27, and the back surface of the monitor 13 is configured.

  On the other hand, the PC 12 is disposed in the storage spaces 22 a, 22 b, and 22 c partitioned by the partition frame 23 via the pedestals 40 and 41 in the electronic device storage section 22.

(Configuration of bases 40 and 41)
The pedestal 40 is arranged in the storage spaces 22a and 22c located on the left and right sides of the desk, and the pedestal 41 is arranged in the storage space 22b located in the center of the desk. Further, as shown in FIG. 5A, the pedestal 40 has four PCs 12 arranged adjacent to each other in the left-right direction of the desk in the present embodiment. Further, as shown in FIG. 5B, the base 41 has two PCs 12 arranged adjacent to each other in the front-rear direction of the desk. Furthermore, both ends of a fixing belt 42 for fixing four or two PCs 12 to the bases 40 and 41 are fixed to the bases 40 and 41.

  Hereinafter, the pedestal 40 and the pedestal 41 differ only in size and have substantially the same configuration, and therefore the pedestal 41 will be described with reference to FIG.

  In FIG. 6, a pedestal 41 includes a top plate 44 whose upper surface is a PC placement surface 43, a caster 45 provided near the bottom square of the top plate 44 and capable of moving the pedestal 41, and the top plate by the caster 45. 44, a peripheral wall 47 surrounding a space 46 formed below 44, a plurality of slit-like openings 48 provided in the top plate 44, and a rear frame 17 or a curtain plate 21 protruding from the back side of the desk of the peripheral wall 47. And a stopper projection 49 that abuts on the desk, and an operation opening (or handle) 50 for pulling out formed on the front side of the peripheral wall 47 on the desk.

(Configuration of fixed belt 42)
As shown in FIG. 7, the fixed belt 42 is provided with a fixed end 51 provided at one end and a fixed length fixed belt 53 having a folded buckle 52 fixed at the other end, a fixed end 54 provided at one end, and the like. And an adjustable belt 55 having a variable length with its end folded back by a buckle 52.

  The fixed end tools 51 and 54 are fixed to the PC placement surface 43 or the peripheral wall 47 of the bases 40 and 41 with screws or the like, and the four or two PCs 12 are tightened in tension by adjusting the length of the adjustment belt portion 55 ( The PC 12 is fixed to the pedestals 40 and 41. In the present embodiment, two fixed belts 42 are used for the pedestals 40 and 41, but one or three or more belts may be used. Further, the fixing belt 42 is not particularly limited as long as the belt can be adjusted in length and can be fixed to the pedestals 40 and 41 at both ends.

Furthermore, a spacer 60 (70, 80) for securing a facing interval between the adjacent PCs 12 is supported in the middle of the fixed belt 42.

  The spacer according to the first embodiment applied to the desk system of the present invention will be described below with reference to FIGS. FIG. 8 shows a spacer according to a first embodiment applied to the desk system of the present invention. FIG. 8A is a perspective view of the surface side of the spacer, and FIG. 8B is a side view of the spacer. FIG. 9 shows a spacer according to a first embodiment applied to the desk system of the present invention. FIG. 9A is a plan view of the surface side of the spacer, and FIG. 9B is a front view of the spacer. FIG. 10 shows a use state diagram of the spacer, and FIG. 10A is a front view showing a state in which the facing distance of the electronic device whose upper surface is set to the same height is defined as the width dimension of the wide rib. FIG. 10B is a front view of a state in which the facing distance of the electronic device whose upper surface is set to the same height is defined as the height dimension of the wide rib, and FIG. FIG. 10D is a front view showing a state in which the interval between the opposing electronic devices set at different heights is defined by the width of the wide rib, and FIG. 10D is an opposing view of the electronic devices set at different heights on the upper surface. It is a front view of the state which has prescribed | regulated the space | interval to the dimension of the height of a wide rib.

(Configuration of spacer 60)
As shown in FIG. 8, the spacer 60 can contact a metal rectangular plate portion 61 (base portion) and the opposite side surface of the adjacent PC 12 that protrudes toward the back surface side (one surface side) of the rectangular plate portion 61. And a pair of wide ribs 62 (first contact portions).

  The wide ribs 62 are formed in a rectangular shape, and are raised by bending toward the back side from the two opposite sides of the rectangular plate portion 61. The wide rib 62 has two short sides 62d and 62e spaced apart from each other in the perpendicular direction of the front and back surfaces of the rectangular plate portion 61, and spaced from each other in the rib width direction intersecting the perpendicular direction. The two long sides 62f and 62g arranged are the contact portions that contact the opposing side surfaces of the PC 12 with the upper surface 12a extending at the same height (see FIGS. 10A and 10B). ).

  In the first embodiment, the width (long sides 62f, 62g) of the wide rib 62 is set to be larger than the height (short sides 62e, 62d) protruding from the rectangular plate portion 61 of the wide rib 62. Yes. Hereinafter, the height of the wide rib 62 protruding from the rectangular plate portion 61 is simply referred to as height.

Further, the spacer 60 protrudes toward the surface side (the other surface side) on one of the two opposite sides of the rectangular plate portion 61 and has a narrow rib 63 (which can contact the side surface of one adjacent PC 12. A second abutting portion) and a tip portion 64 (locking portion) formed on the other of the two opposite sides of the rectangular plate portion 61 and lockable to the upper surface of one adjacent PC 12. Have.
In addition, as shown in FIG. 10B, the narrow rib 63 may be a locking portion that can be locked to the upper surface of one adjacent PC.

  The narrow rib 63 is raised by bending toward the surface side from the base end edge 61a of the base end edge 61a and the front end edge 61b facing each other of the rectangular plate portion 61. The narrow rib 63 is formed with a belt insertion opening 63a that opens near the center of the protruding end face, and a belt insertion portion 63b that communicates with the belt insertion opening 63a and extends in the rib width direction.

  The distal end portion 64 is a portion of the rectangular plate portion 61 from the short side 62e of the wide rib 62 to the distal end edge 61b. The distal end portion 64 is formed with a belt insertion opening 64a that opens near the center of the distal end, and a belt insertion portion 64b that communicates with the belt insertion opening 64a and extends in the width direction of the distal end portion 64.

In the spacer 60 having the above-described configuration, it is possible to set the facing distance of the PC 12 extending from the upper surface 12a at different heights to two types, that is, the width of the wide rib 62 and the height of the wide rib 62 as follows. It is.
That is, as shown in FIG. 10 (A), when the facing interval of the PC 12 is set to the width of the wide rib 62, the front end portion 64 and the narrow rib 63 are positioned higher than the upper end edge of the side surface of the PC 12. By positioning, the short sides 62d and 62e of the wide rib 62 are brought into contact with the opposite side surfaces of the PC 12, respectively. By doing so, the facing interval of the PC 12 is defined by the dimension of the width (long sides 62f, 62g) of the wide rib 62.

  In addition, as shown in FIG. 10B, when the spacers 60 are used for the PCs 12 having the same height and the upper surface 12a extends, the distance between the PCs 12 is set to the height of the wide ribs 62. 64 and the rectangular plate portion 61 are arranged along the side surface of one PC 12, and the narrow rib 63 is arranged along the upper surface 12 a of one PC 12, whereby the long sides 62 f and 62 g of the wide rib 62 are respectively formed on the opposite side surfaces of the PC 12. Abut. In this way, the facing distance of the PC 12 is defined by the dimension of the height (short sides 62d, 62e) of the wide rib 62.

Furthermore, the spacer 60 can set the facing interval of the PC 12 extending from the upper surface 12 a at different heights to two types, that is, the width of the wide rib 62 and the height of the wide rib 62.
That is, as shown in FIG. 10C, when the facing interval of the PC 12 is set to the width of the wide rib 62, the tip end portion 64 is locked to the upper surface 12a of the PC 12 on the relatively low side. The narrow rib 63 is brought into contact with the side surface of the other PC 12. By doing so, the facing interval of the PC 12 is defined by the dimension of the width (long sides 62f, 62g) of the wide rib 62.

  Further, as shown in FIG. 10D, when the opposing interval of the PC 12 is set to the height of the wide rib 62, the tip end portion 64 and the rectangular plate portion 61 are along the side surface of one PC 12, The long ribs 62f and 62e of the wide rib 62 are brought into contact with the opposite side surfaces of the PC 12 by causing the narrow rib 63 to be along the upper surface 12a of one PC 12. In this way, the facing distance of the PC 12 is defined by the dimension of the height (short sides 62d, 62e) of the wide rib 62.

  Thus, after setting the spacer 60 in a predetermined direction and placing it between the PCs 12, aligning the distance between the spacers 60, the fixed belt 42 is laid over and in a tension state, the orientation of one type of spacer 60 is changed. By changing, it is possible to fix the PC 12 with a wide facing interval (width dimension of the wide rib 62) and to fix the PC 12 with a narrow facing interval (height dimension of the wide rib 62).

Furthermore, the front end portion 64 is locked to the upper surface 12a of the relatively lower PC 12 and the narrow rib 63 is brought into contact with the side surface of the other PC 12, so that the upper surface 12a extends at different heights. Spacers can be placed between them. In this case, the facing interval can be set wide.
The front end portion 64 and the rectangular plate portion 61 are along the side surface of one PC 12, and the narrow rib 63 is along the upper surface 12a of the one PC 12, so that the upper surface 12a extends at different heights from each other. Can be set narrowly.

  Thus, even if the heights of adjacent PCs 12 are different, the PC 12 can be fixed by the fixing belt 42 with the spacer 60 interposed therebetween, so that a gap between the PCs 12 is secured and the PC 12 is generated. Heat can be discharged efficiently. In addition, since one type of spacer 60 can be attached to PCs 12 having different heights, the number of necessary spacers can be reduced, and manufacturing costs and management costs can be suppressed.

  In addition, by using the spacer 60 as described above, it is possible to ensure a suitable facing distance between adjacent PCs 12 using one spacer 60 regardless of the size of the bases 40 and 41 and the number of PCs 12. As the cooling air passage, it is possible to secure an air passage leading to the air outlet 35, the space 46, the opening 48, the PC 12, the outlet 27, and the back surface of the monitor 13.

  Furthermore, in this embodiment, since the belt insertion parts 63b and 64b are formed, when the spacer 60 is attached to the PC 12 having the same height, the spacers are inserted by inserting the fixing belt 42 into the belt insertion parts 63b and 64b. 60 can be prevented from falling off or falling between the PCs 12. Further, even when the spacer 60 is attached between the PCs 12 over a long period of time, it is possible to prevent the spacers 60 from being shifted from a predetermined position or falling between the PCs 12.

(Second embodiment)
Hereinafter, a spacer according to a second embodiment applied to the desk system of the present invention will be described based on FIGS. 11 and 12. FIG. 11 shows a spacer according to a second embodiment applied to the desk system of the present invention, FIG. 11A is a perspective view of the surface side of the spacer, and FIG. 11B is a side view of the spacer. FIG. 12 shows a use state diagram of the spacer, and FIG. 12A is a front view showing a state in which the facing distance of the electronic device whose upper surface is set to the same height is defined as the width dimension of the wide rib. FIG. 12B is a front view of a state in which the facing distance of the electronic device whose upper surface is set to the same height is defined as the height dimension of the wide rib, and FIG. FIG. 12D is a front view showing a state in which the facing distance between electronic devices set to the same height is defined as the height dimension of a pair of wall portions, and FIG. FIG. 12E is a front view of a state in which the facing distance of the electronic device is defined by the width dimension of the wide rib, and FIG. 12E illustrates the facing distance of the electronic device in which the upper surface is set to a different height. FIG. 12F is a front view of the electronic device with the upper surface set to a different height. It is a front view of a state defines the direction spacing dimension of the height of the pair of wall portions.

(Configuration of spacer 70)
The second embodiment is the same as the first embodiment except that a pair of wall portions 75 are provided in the vertical direction of the narrow rib 63 from the narrow rib 63. The detailed description will be omitted.
As shown in FIG. 11, the spacer 70 has a pair of metal rectangular plate portions 61 and a pair of surfaces that protrude toward the back side (one surface side) of the rectangular plate portions 61 and can be brought into contact with opposing side surfaces of the adjacent PC 12. A wide rib 62 (first contact portion) is provided.

The wide ribs 62 are formed in a rectangular shape, and are raised by bending toward the back side from the two opposite sides of the rectangular plate portion 61.
The spacer 70 protrudes toward the front surface side (the other surface side) at one of the other two sides facing the rectangular plate portion 61 and has a narrow rib 63 (which can contact the side surface of the adjacent PC 12. A second abutting portion) and a tip portion 64 (locking portion) formed on the other of the two opposite sides of the rectangular plate portion 61 and lockable on the upper surface of one adjacent PC 12. doing.

  Furthermore, in the second embodiment, as shown in FIG. 11, a pair of wall portions 75 are extended from the side end portion of the narrow rib 63 in the vertical direction, and the pair of wall portions. 75 is a contact portion (third contact portion) that can contact the adjacent PC 12. In addition, this pair of wall part 75 may be latched by the upper surface of one adjacent PC12.

  In the second embodiment, the width (long sides 62f, 62g) of the wide rib 62 is set to be larger than the height (short sides 62e, 62d) protruding from the rectangular plate portion 61 of the wide rib 62. Yes. The height of the pair of wall portions 75 protruding from the narrow rib 63 is set to be larger than the width of the wide rib 62 and smaller than the height of the wide rib 62 protruding from the rectangular plate portion 61. Hereinafter, the height of the wide rib 62 protruding from the rectangular plate portion 61 is simply referred to as the width of the wide rib 62, and the height of the pair of wall portions 75 protruding from the narrow rib 63 is simply the height of the pair of wall portions 75. I will call it.

In the spacer 70 having the above-described configuration, the facing distance between the PCs 12 in which the upper surface 12a extends at different heights is as follows, and the width dimension of the wide rib 62, the height dimension of the wide rib 62, and the pair of wall portions 75. It is possible to set to three types of height dimensions.
That is, as shown in FIG. 12A, when the facing interval of the PC 12 is set to the width of the wide rib 62, the tip end portion 64 and the narrow rib 63 are positioned higher than the upper end edge of the side surface of the PC 12. By positioning, the short sides 62d and 62e of the wide rib 62 are brought into contact with the opposite side surfaces of the PC 12, respectively. By doing so, the facing interval of the PC 12 is defined by the dimension of the width (long sides 62f, 62g) of the wide rib 62.

  In addition, as shown in FIG. 12B, when the spacers 60 are used for the PCs 12 having the same height and the upper surface 12a extends, the opposing spaces of the PCs 12 are set to the heights of the wide ribs 62. The rectangular plate portion 61 extends along the side surface of the one PC 12, and the side edges of the pair of wall portions 75 extend along the upper surface 12 a of the one PC 12, and the long sides 62 f and 62 g of the wide rib 62 are formed on the opposite side surface of the PC 12. Are in contact with each other. In this way, the facing distance of the PC 12 is defined by the dimension of the height (short sides 62d, 62e) of the wide rib 62.

  And as shown in FIG.12 (C), the opposing space | interval of PC12 is made into the height of a pair of wall part 75 (3rd contact part) using the spacer for PC12 from which the upper surface 12a extends mutually at the same height. In this case, the pair of wall portions 75 are arranged between the adjacent PCs 12 with the narrow rib 63 along the other PC, the pair of wall portions 75 are brought into contact with the adjacent PCs 12, and the rectangular plate portion 61 is locked to the upper surface of the other PC 12. By doing in this way, the opposing space | interval of PC12 is prescribed | regulated to the dimension of the height of a pair of wall part 75. FIG.

Further, the spacer 70 has a distance between the PC 12 in which the upper surface 12a extends at different heights, the width of the wide rib 62, the height of the wide rib 62, and the height of the pair of wall portions 75. It is possible to set the type.
That is, as shown in FIG. 12D, when the facing interval of the PC 12 is set to the width of the wide rib 62, the tip end portion 64 is locked to the upper surface 12a of the PC 12 on one side which is relatively low, and the other side. The narrow rib 63 is brought into contact with the side surface of the PC 12. By doing in this way, the opposing space | interval of PC12 is prescribed | regulated to the dimension of the width | variety (long side 62f, 62g) of the wide rib 62. FIG.

  In addition, as shown in FIG. 12E, when the interval between the PCs 12 is set to the height of the wide rib 62, the front end portion 64 and the rectangular plate portion 61 are placed along the side surface of one PC 12, and a pair of The side ends of the wall 75 are aligned with the upper surface 12a of one PC 12, and the long sides 62f and 62g of the wide rib 62 are in contact with the opposite side surfaces of the PC 12, respectively. By doing in this way, the opposing space | interval of PC12 is prescribed | regulated by the dimension of the height (short side 62d, 62e) of the wide rib 62. FIG.

  Then, as shown in FIG. 12 (F), when the facing distance of the PC 12 is set to the height of the pair of wall portions 75 (third contact portions), the narrow rib 63 is placed along the other PC. The pair of wall portions 75 are disposed between the adjacent PCs 12, the pair of wall portions 75 are brought into contact with the adjacent PCs 12, and the rectangular plate portion 61 is locked to the upper surface of the other PC 12. By doing in this way, the opposing space | interval of PC12 is prescribed | regulated to the dimension of the height of a pair of wall part 75. FIG.

  As a result, the spacer 70 is placed between the PCs 12 with a predetermined orientation, and after the opposing gaps are aligned, the fixed belt 42 is bridged and a tensioned state is established. By changing to a predetermined direction, it is possible to appropriately set the facing interval between adjacent PCs 12 to three types as described above.

  Furthermore, the front end portion 64 is locked to the relatively lower upper surface 12a of the PC 12 and the narrow rib 63 is brought into contact with the side surface of the other PC 12, so that the upper surface 12a extends at different heights. Can be set to a width dimension of the wide rib 62. Further, the front end portion 64 and the rectangular plate portion 61 are along the side surface of the PC 12 on one side, and the side end portions of the pair of wall portions 75 are along the upper surface 12a of the one PC 12 so that the top surface 12a has different heights. The opposing interval of the PC 12 in which the width of the wide rib 62 extends can be set to the height dimension of the wide rib 62. Further, the narrow rib 63 is brought into contact with the PC 12 on the other side, the pair of wall portions 75 are arranged between the adjacent PCs 12, and the rectangular plate portion 61 is locked to the PC 12 on the one side. Now, the facing distance of the PC 12 from which the upper surface 12a extends can be set to the height dimension of the pair of wall portions 75.

  As described above, even when the heights of the adjacent PCs 12 are different, the PC 12 can be fixed by the fixing belt 42 with the spacer 70 interposed therebetween, so that a gap between the PCs 12 is secured and the PC 12 is generated. Heat can be discharged efficiently. In addition, since one type of spacer 70 can be attached to the PCs 12 having different heights, the number of necessary spacers can be reduced, and manufacturing costs and management costs can be suppressed.

  By doing as above, regardless of the size of the bases 40 and 41 and the number of PCs 12, it is possible to ensure an appropriate facing interval between the adjacent PCs 12 using one spacer 70, and as the above-described cooling air path, It is possible to secure an air path that extends between the air blowing port 35, the space 46, the opening 48, and the PC 12, the discharge port 27, and the back surface of the monitor 13.

(Third embodiment)
Hereinafter, based on FIG. 13, the spacer which concerns on 3rd embodiment applied to the desk system of this invention is demonstrated. FIG. 13 shows a spacer according to a third embodiment applied to the desk system of the present invention. FIG. 13 (A) is a perspective view of the surface side of the spacer, and FIG. 13 (B) is a side view of the spacer.

(Configuration of spacer 80)
As shown in FIG. 13, the spacer 80 includes a metal rectangular plate portion 81, and a wide rib that protrudes toward the back side (one surface side) of the rectangular plate portion 81 and can be in contact with the opposing side surface of the adjacent PC 12. 82 (first contact portion).

  The wide rib 82 is formed in a rectangular shape, and is raised by bending from one of two opposing sides of the rectangular plate portion 81 toward the back surface side. The wide rib 82 has two short sides 82d and 82e that are spaced apart from each other in the normal direction of the front surface and the back surface of the rectangular plate portion 81, and are spaced from each other in the rib width direction that intersects the normal direction. The two long sides 82f and 82g that are arranged serve as contact portions that contact the opposite side surfaces of the PC 12 in which the upper surface 12a extends at the same height.

  The spacer 80 protrudes toward the surface side (the other surface side) on one of the other two sides of the rectangular plate portion 81 facing each other, and the narrow rib 83 (which can contact the side surface of the adjacent one of the PCs 12). A second abutting portion) and a tip portion 84 (locking portion) formed on the other side of the other two opposite sides of the rectangular plate portion 81 and lockable to the upper surface of one adjacent PC 12. Have.

Furthermore, in the third embodiment, as shown in FIG. 13, a wall portion 85 is extended from the side end portion of the narrow rib 83 in the vertical direction, and this wall portion 85 (third The contact portion is a contact portion (third contact portion) that can contact the adjacent PC 12. In addition, this wall part 85 may be latched by the upper surface of one adjacent PC12.

  In the third embodiment, the width (long sides 82f, 82g) of the wide rib 82 is set larger than the height (short sides 82e, 82d) protruding from the rectangular plate portion 81 of the wide rib 82. Yes. The height of the wall 85 protruding from the narrow rib 83 is set to be larger than the width of the wide rib 82 and smaller than the height of the wide rib 82 protruding from the rectangular plate portion 81. Hereinafter, the height of the wide rib 82 protruding from the rectangular plate portion 81 is simply referred to as the width of the wide rib 82, and the height of the wall 85 protruding from the narrow rib 83 is simply referred to as the height of the wall portion 85. To do.

  The narrow rib 83 is raised by bending from the base end edge 81a toward the surface side of the base end edge 81a and the front end edge 81b of the rectangular plate portion 81 facing each other. Further, the narrow rib 83 is formed with a belt insertion portion 83b extending in the rib width direction in the vicinity of the base end edge 81a of the protruding end surface.

  The distal end portion 84 is a portion of the rectangular plate portion 81 from the short side 82e of the wide rib 82 to the distal end edge 81b. A belt insertion portion 84 b that extends in the width direction of the distal end portion 84 is formed at the distal end portion 84.

  The spacer 80 having the above-described configuration is configured such that the opposing distance of the PC 12 in which the upper surface 12a extends at the same height or different heights is set to the wide rib 62, the narrow rib 63, and the pair of wall portions of the spacer 70 of the second embodiment. In the same manner as 75, the wide rib 82, the narrow rib 83, and the wall portion 85 can be attached, and the interval between the adjacent PCs 12 can be set to the width dimension of the wide rib 82 and the height of the wide rib 82. It is possible to set three kinds of facing distances of the height dimension and the height dimension of the wall portion 85.

  In addition, the spacer 80 of the third embodiment has a simple configuration as compared to the spacer 70 of the second embodiment, and the number of times of bending when forming ribs during manufacturing is small, so that the manufacturing cost is reduced. Can be reduced.

  Further, in the third embodiment, since the belt insertion portions 83b and 84b are formed, when the spacer 80 is attached to the PC 12 having the same height, the fixing belt 42 is easily inserted into the belt insertion portions 83b and 84b. It is possible to prevent the spacer 80 from coming off or falling between the PCs 12. Further, even when the spacer 80 is attached between the PCs 12 for a long period of time, the spacer 80 can be prevented from being displaced from a predetermined position or falling between the PCs 12.

  In the above embodiment, the case where the dimensions are larger in the order of the width of the wide rib, the height of the third contact portion (a pair of wall portions and the wall portion), and the height of the wide rib has been described. For example, when the dimensions are reversed in the above order, the interval between adjacent PCs is set in the order of the width of the wide rib, the height of the third contact portion, and the height of the wide rib. A narrow interval can be set to a wide interval. As described above, the interval between the adjacent PCs can be adjusted by appropriately setting the width of the wide rib, the height of the third contact portion, and the height of the wide rib as necessary.

P ... Worker W1 ... Opposite spacing W2 ... Opposite spacing 10 ... Desk system 11 ... Desk body 12 ... PC (electronic equipment)
DESCRIPTION OF SYMBOLS 13 ... Monitor 14 ... Desk top plate 22 ... Electronic equipment storage part 27 ... Discharge port 34 ... Floor surface 35 ... Blower port 40 ... Base (large size)
41 ... pedestal (small size)
42 ... fixing belt 43 ... PC placement surface 46 ... space 48 ... opening 60 ... spacer 61 ... rectangular plate (base)
62 ... Wide rib (first contact part)
62b ... belt insertion part 63 ... narrow rib (second contact part)
64 ... tip (locking part)
70 ... Spacer 75 ... A pair of wall parts (third contact part)
80 ... Spacer 81 ... Rectangular plate (base)
82 ... Wide rib (first contact part)
82b ... belt insertion part 83 ... narrow rib (second contact part)
83b ... belt insertion part 84 ... tip part (locking part)
85: Wall portion (third contact portion)

Claims (6)

An electronic device holding structure for fixing a plurality of electronic devices arranged at intervals to a pedestal,
A fixing belt having both ends fixed to the pedestal and spanned across the plurality of electronic devices arranged;
A spacer that is interposed between each of the electronic devices and maintains an interval between the adjacent electronic devices, and
The spacer includes a plate-like base,
A first abutting portion that protrudes from one surface of the base portion toward one surface side and is capable of abutting on each of the opposing side surfaces of the adjacent electronic device;
An electronic device holding comprising: a second contact portion that protrudes from the side end portion of the base portion toward the other surface side and that can contact at least one side surface of the adjacent electronic device. Construction.   The electronic device holding structure according to claim 1, wherein a belt insertion portion through which a fixing belt can be inserted is provided in the second contact portion.   3. The electronic device holding device according to claim 1, wherein a third contact portion extends from the second contact portion in a direction orthogonal to the second contact portion. 4. Construction.   The holding structure for an electronic device according to any one of claims 1 to 3, wherein a height protruding from a base portion of the first contact portion is different from a width of the first contact portion. .   5. A locking portion that protrudes from a side end portion of the base portion in a direction in which the base portion extends and is lockable on an upper surface of the electronic device. The electronic device holding structure according to claim 1. A desk top where the monitor is installed;
Electronic device storage installed in the space below the desk top,
A pedestal on which a plurality of electronic devices with different heights are placed, the electronic device storage unit,
The distance between the electronic devices is maintained by the electronic device holding structure according to any one of claims 1 to 5, and a plurality of the electronic devices are respectively fixed to the pedestal. A desk system.

Images