JP5637937B2 - Control device - Google Patents

Description

  The present invention relates to a control device.

  Control devices that support social infrastructure, public system products, etc., have recently achieved rapid technological advances such as adaptation to new standards, low voltage, high speed, high density, etc. The demand for expandability, lineup expansion, downsizing, higher performance, and lower costs is increasing.

  For this reason, in product development, development costs have increased for many model developments in order to comply with various standards, and it has been difficult to ensure product reliability such as measures against heat and noise. In addition, the product life cycle has been shortened, and new products must be put on the market quickly while ensuring reliability.

  A technique for such a demand for high product extensibility, lineup expansion, downsizing, high performance, and low cost is described in, for example, Japanese Patent Application Laid-Open No. 2011-35208.

JP 2011-35208 A

  Such control devices require high reliability, reduce development costs, expand the lineup, and take measures against heat and noise. To expand the lineup, the structure must comply with the standards. Due to the large differences in product dimensions, it is difficult to deal with one product.

  For example, there are two types of I / O modules for expansion: a height of 106.68 mm called full height and a height of 64.41 mm called low profile.

  In order to cope with the two types of standards, there is a problem that it is necessary to develop a structure corresponding to the two types of standards with different physical heights.

  In addition, as a countermeasure against heat, the amount of heat generated by electronic components and equipment mounted inside the product is increased, and cooling fan is installed to cope with not only forced fan cooling. The problem is that the cooling fins must be enlarged.

  At the same time, there are components and devices that increase the amount of heat generation at a plurality of locations in the control device, and it is necessary to circulate cooling air taken from the outside to the plurality of heat generating portions to efficiently exhaust the generated high heat.

  For this reason, it is a problem that it is necessary to provide a plurality of fans and fins in the control device, or to provide a rectifying plate and a wind tunnel that circulate with less internal air resistance.

  Furthermore, in noise countermeasures, noise components and noise levels in control devices increase due to low voltage, miniaturization, and high speed of electronic components and equipment, and noise transmission paths become complicated due to higher product density. ing. In order to prevent the noise generated inside from leaking to the outside of the product, it is necessary to ensure adhesion with a casing frame, an exterior cover, and internal mounting brackets that form an outer shell and drop them to the ground path.

  For this reason, conventionally, a commercially available gasket with good conductivity is sandwiched between members, a dedicated ground spring is manufactured, a commercially available ground spring (such as a finger) is sandwiched, or steel coating or surface treatment is peeled off. It is a problem that needs to be done.

  An object of the present invention is to provide a control device capable of solving at least one of the above problems.

  To achieve the above object, according to the present invention, an expansion board having an opening for mounting an expansion I / O board is provided at one end of a housing, and expansion boards of different sizes can be replaced with each other via a metal fitting or a printed board to be replaced. Thus, it is configured to be mountable in the opening.

  According to the present invention, it is possible to realize a control device with high product lineup and low cost.

It is a schematic perspective view of the control apparatus which is embodiment of this invention. It is an exploded view of the control apparatus which is embodiment of this invention. It is a perspective view at the time of mounting the I / O board which is an embodiment of the present invention. It is an enlarged view at the time of mounting the low pro size I / O board which is an embodiment of the present invention. It is the schematic of the reliable shield I / O module frame internal structure which is embodiment of this invention. It is the schematic of the reliable shield frame structure which is embodiment of this invention. It is an enlarged view of the highly reliable shield frame ventilation hole which is embodiment of this invention. It is the schematic of the cooling wind tunnel structure which is embodiment of this invention.

  Embodiments of the present invention will be described below with reference to the accompanying drawings.

  FIG. 1 is a schematic diagram of a control apparatus according to an embodiment of the present invention. FIG. 1 shows a control device 1 with a front panel that is suitable for two types of I / O modules and requires high reliability against heat and noise. Is high-density mounting. The outer covers that require electrical conductivity are excluded (the outer cover is installed in actual use).

  In FIG. 1A, a full height I / O board is mounted via an I / O module, while in FIG. 1B, instead of FIG. 1A, a low profile size is installed. A corresponding I / O board is mounted using an I / O fixing bracket. A power source 2 and a cooling wind tunnel 11 are disposed in a housing frame 3 that forms a part of the control device with a front panel 1.

  FIG. 2 is an exploded view of a control apparatus according to an embodiment of the present invention. One set of the set of the I / O module 12 and the full height size I / O board 13 and the set of the low profile size compatible I / O board 14 and the I / O fixing bracket 15 is mounted. The housing frame 3 includes a power source (power supply module) 2 that mainly operates internal mounting devices and components, a mother board 6 that is a control printed board, an HDD mounting tray 19, and a DVD media device 5 on the bottom surface of the housing frame 3. For mounting a number of HDDs and backlashes (mounting modules) 9 to be mounted, I / O modules 12 for mounting some I / O boards 13 for full height size, I / O boards 14 for low profile size, etc. The I / O fixing bracket 15 corresponding to the low profile size is used.

  Here, information is supplied to a CPU (not shown) installed on the mother board 6 via a LAN terminal (not shown), and the CPU executes calculation of command information based on this information and executes the LAN terminal (see FIG. A command is supplied to an external device via a device (not shown).

  The CPU uses the program stored in the HDD 4 or each information stored in the DVD media device 5 in the process of calculation.

  In the apparatus, in order to ensure cooling performance, a cooling fan 8 is provided inside the apparatus on the surface where the HDD mounting tray 19 or the like on the front side of the apparatus is inserted. Each of the cooling fins 7 is mounted, and the cooling fin 7 mounted in the center of the apparatus is the part that generates the most heat, and the outside air is forcibly sucked into the apparatus through the ventilation holes 10 by the cooling fan 8. At the same time, a cooling wind tunnel 11 is mounted to simultaneously cool the HDD 4.

  Note that whether the full height I / O board 13 or the low profile I / O board 14 is used, a motherboard 6 (CPU) and a bus (not shown) are connected via a connector 20 described later. Z).

  FIG. 3 is a schematic view when two types of I / O modules according to an embodiment of the present invention are mounted. The I / O module 12 and the I / O fixing bracket 15 are vertically mounted on one rear end in the front panel control device 1 shown in FIG. 1, and the I / O module 12 is connected to the connectors 20a and 20b on the mother board 6. The The I / O fixing bracket 15 is mounted vertically on the housing frame 3, and the I / O board 14 corresponding to the low profile size is connected to the connectors 20 b, 20 c, 20 d on the motherboard 6 vertically.

  As described above, the mounting structure corresponding to the two types of standards is replaced with a small number of parts, thereby reducing the cost such as the material cost and the like, and reducing the development cost because it can be realized with one product.

  FIG. 4 is an enlarged view when mounting an I / O board corresponding to a low profile size according to an embodiment of the present invention. The I / O board 14 corresponding to the low profile size shown in the figure is mounted on the I / O fixing bracket 15 via the I / O board fixing bracket 17 corresponding to the low profile size. The I / O board fixing bracket 17 compatible with the low profile size is inserted into the I / O board fixing bracket insertion hole 21 corresponding to the low profile size in the housing frame 3 and the opposite side is mounted with one screw. It has become. The I / O fixing bracket 15 is inserted into the inside of the claw portion 22 of the housing frame 3 and has a hook structure that is mounted outside the housing frame 3 except for the claw portion 22.

  Further, the upper portion of the I / O fixing bracket 15 and the closing plate 18 are processed with an extruding portion 23 in order to ensure electrical continuity on the surface in contact with the exterior cover.

  FIG. 5 is a schematic diagram of a highly reliable shielded I / O module frame structure according to an embodiment of the present invention. The I / O module 12 in this figure is mounted on one rear end of the front panel control device 1 in FIG. 1, and a full height I / O board 13 is connected to a full height I / O board fixing bracket 16. It is mounted on the I / O module frame. The full height I / O board fixing bracket 16 is inserted into the full height I / O board fixing bracket insertion hole 24 in the I / O module, and the opposite side is mounted with one screw. Yes.

  Further, the I / O module frame is processed with an extruded portion 23 in order to ensure electrical characteristics on the surface in contact with the exterior cover.

  FIG. 6 is a schematic view of a highly reliable shield frame structure according to an embodiment of the present invention. Each steel material is bent several times so as to have a box shape, and a columnar extrusion portion (extrusion processing) 23 for ensuring electrical conductivity is provided on the surface in contact with the exterior cover. It is the housing | frame frame 3 provided in the direction at fixed intervals.

  FIG. 7 is an enlarged view of a vent hole of a highly reliable shield frame according to an embodiment of the present invention. The shape and size of the ventilation hole 10 for taking outside air into the control device 1 with the front panel by the cooling fan 8 can be large or long when the total area is the same by reducing the hole diameter and providing a large amount. Since the direction of current flowing through the housing frame 3 flows vertically and horizontally compared to a circle, the shielding property can be improved.

  FIG. 8 is a schematic view of a highly reliable cooling wind tunnel structure according to an embodiment of the present invention. The cooling wind tunnel 11 is formed so as to surround the cooling fan 8 in a mounting form in which the outside air intake cooling air 8 is provided in the control device with a front panel 1 and the high heat generating portion is provided on the side surface, and the air hole and the air hole are formed on the side surface. By providing a claw inside, the cooling air is efficiently sent to the side surface, and the cooling wind tunnel is provided near the cooling fin behind the cooling fan, so that the CPU and HDD of the high heat generating member can be efficiently cooled.

  The technology of the present embodiment is summarized as follows: (1) A structure corresponding to two kinds of standards by replacing the extension I / O module in the control device with a bracket and a printed board; (2) Outside air in the control device Cooling tunnel structure that efficiently sends cooling air in high-density mounting that requires cooling at multiple locations, such as HDDs and CPUs, using intake fans, and (3) The shape of the ventilation holes for taking in outside air has a high shielding effect Shield structure that directly extrudes bosses etc. on the chassis frame and each member to improve the continuity between the combined members, and the control device that combines these, enhances the product lineup that is the subject, heat and noise, And low cost can be realized easily.

1 Control device with front panel 2 Power supply 3 Housing frame 4 HDD
5 DVD media device 6 Motherboard 7 Cooling fin 8 Cooling fan 9 HDD tower 10 Ventilation hole 11 Cooling wind tunnel 12 I / O module 13 I / O board for full height size 14 I / O board for low profile size 15 I / O fixing Metal fitting 16 Full height size compatible I / O board fixing bracket 17 Low profile size compatible I / O board fixing bracket 18 Closure plate 19 HDD mounting tray 20 Connector 21 Low profile size compatible I / O board fixing bracket insertion hole 22 Claw 23 Extrusion section 24 I / O board fixing bracket insertion hole for full height size

Claims (5)

Low profile size or full height size expansion board,
An opening in which an expansion board is mounted on one end of the housing;
A motherboard to which the expansion board is attached and detached ;
A plurality of connectors provided on the motherboard and into which the expansion board can be inserted; and
A control device comprising:
When the expansion board has a low profile size, the expansion board fixed by a fixing bracket is inserted into the connector approximately perpendicular to the motherboard,
If the expansion board is full height, the expansion board is inserted into the connector via an I / O module mounted in parallel to the motherboard,
The opening is configured so that both the fixing bracket and the I / O module can be mounted.
At least one of the plurality of connectors into which the low profile size expansion boat is inserted is commonly used as a connector in which the full height size expansion board is inserted into the motherboard via the I / O module. And
Of the plurality of connectors into which the low profile size expansion boat is inserted, other connectors that are not commonly used connectors are full height size when the I / O module is installed in the opening. Arranged at a position on the motherboard covered with the expansion board
A control device characterized by that .   In Claim 1, the said housing consists of the housing | casing frame shape | molded by bending some steel materials so that it may become a box shape shape, On the surface combined with the member which requires the electrical continuity of the said housing frame. A control device characterized by being subjected to extrusion processing.   The control device according to claim 1, wherein a circular ventilation hole is provided so that a direction of a current flowing through the housing frame is uniform in the vertical and horizontal directions.   3. The extruded part according to claim 2, wherein a shape of the extruded part is a cylinder or a sphere, and a plurality of the extruded parts are provided at intervals of a predetermined distance on a surface combined with a member requiring electrical conductivity. The control apparatus characterized by the above-mentioned.   In Claim 1, the outside air suction fan is mounted, the high heat-emitting component is mounted in the fan rear part and the side part, The said outside air suction fan is enclosed, and the air hole was provided in the side part, It is characterized by the above-mentioned. Control device.