JP2003037378A - Enclosure structure for electronic equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make two sets of transmitting and amplifying units to be interchangeable and, in addition, to be plugged in an enclosure structure for electronic equipment equipped with a natural air-cooling function. SOLUTION: In the enclosure structure for electronic equipment, two units 10 and 11 respectively having radiators 19 are plugged in the enclosure 1 of the equipment so that the radiators 19 may come on the outside. In the structure, fixed connector units constituted by attaching required connectors to the units 10 and 11 are provided and sliding connector units to which connecters inserted into the connectors attached to the units 10 and 11 are provided obliquely movably with respect to the plugging-in direction, so that the sliding connector units may be engaged with the fixed connector units at prescribed positions during the course of plugging-in operation and the connectors may be inserted into the connectors during the course of the remaining plugging-in operation.

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a housing structure of an electronic device having a natural air cooling function. 2. Description of the Related Art Generally, electronic devices are unitized for each function, the units are mounted on a housing, and the units are connected by connectors. When the electronic device is a wireless device and the unit is a transmission amplification unit, the electronic components constituting the unit generate heat. Therefore, the unit has a radiator, and the heat from the heat-generating component is transmitted through the radiator. Dissipates heat,
The unit is cooling. The cooling of the unit includes forced cooling and natural cooling. The forced cooling has a cooling fan, and the air discharged from the cooling fan is passed through the radiator to perform cooling. Natural cooling is natural convection. Cooling. In the case of natural cooling, the radiator is preferably exposed to the outside so that natural convection easily occurs. A housing structure of a conventional electronic device having a natural air cooling function will be described with reference to FIGS. [0005] The conventional example is provided with two sets of transmission amplifying units, which effectively dissipates heat and also exposes a radiator to the outside in order to make the heat radiation conditions the same for each transmission amplifying unit. . In FIG. 1, reference numeral 1 denotes a housing. The housing 1 has an open front surface, guide rails 3 on upper and lower surfaces, and connectors 4, 5, and 6 on the rear surface. Pin 7 is provided upright. Heat release windows 8 are opened on both side surfaces so that a radiator 19 described later is exposed. The transmission amplification units 10 and 11 are mounted on the housing 1 by plug-in by being inserted along the guide rails 3. A handle 2 is provided on the front of the transmission amplification units 10 and 11.
6 are provided. The transmission amplification units 10 and 11 have a wiring board 18 on which electronic components are mounted, and a radiator 19 provided in close contact with the wiring board 18.
The connector mounting bracket 13 is provided so as to be located on the back surface of the wiring board 18. The connector mounting bracket 13 includes connectors 14, 1 that are coupled to the connectors 4, 5, and 6, respectively.
5 and 16 are provided, and a guide hole 17 into which the guide pin 7 is fitted is provided. The upper surfaces of the transmission amplifying units 10 and 11,
On the lower surface, a rail (not shown) that is slidably fitted to the guide rail 3 is provided. The transmission amplifying units 10 and 11 are inserted along the guide rails 3 and are positioned by fitting the guide pins 7 into the guide holes 17. , 15, and 16 are combined. The transmission amplifying units 10 and 11 have a positional configuration of the wiring board 18 and the radiator 19 such that the radiator 19 is located outside. Therefore, when the transmission amplification units 10 and 11 are mounted, the radiator 19 is adjacent to the radiation window 8. FIGS. 7 and 8 show another conventional example. A frame-shaped housing 21 is mounted on a wall surface via a bracket 22, and the transmission amplifying units 10 and 11 are rotatably provided on the housing 21 via a detachable hinge 23. In the other conventional example, the transmission amplifying unit 1 is also used.
In a state in which 0 and 11 are housed in the housing 21, the wiring board 18 is housed in the housing 21 and the radiator 19 is
Is exposed. A cable 24 for connecting the wiring board 18 extends from the back of the wiring board 18, and the cable 24 is connected via a manual connector 25 with the transmission amplification units 10 and 11 opened. . The insertion and removal hinges 23 are provided before and after the transmission amplifying units 10 and 11 so that the transmission amplifying units 10 and 11 can be attached to either the left or right surface of the housing 21. Handles 26 for opening and closing the amplification units 10 and 11 are also provided before and after the radiator 19. In the conventional example shown in FIGS. 4 and 5, if the radiator 19 is set to the outside with respect to each of the transmission amplification units 10 and 11,
One of the transmission amplifying units 10 and 11 must be turned upside down. In this case, since the arrangement of the electronic components on the wiring board 18 is also upside down, the wiring boards 18 of the transmission amplification unit 10 and the transmission amplification unit 11 must be symmetrical to make the heat distribution of the left and right radiators 19 the same. Must be done. Therefore, the transmission amplifying unit 10 and the transmission amplifying unit 11 are not compatible with each other, and two types of transmission amplifying units must be manufactured, which increases the manufacturing cost and complicates parts management. In the conventional example shown in FIGS. 7 and 8, the insertion / removal hinges 23 are provided before and after the transmission amplification units 10 and 11 so that they can be provided on both left and right sides of the housing 21 without being turned upside down. Can be provided. However, in the conventional example, a large space for opening and closing the transmission amplification units 10 and 11 to the left and right is required, and the installation space for the electronic device is increased. Further, there are disadvantages in manufacturing, installation, maintenance and inspection, such as providing extra insertion / removal hinges that are not used constantly and manually connecting / disconnecting connectors. The present invention has been made in view of the above circumstances, and in a housing structure of an electronic device having a natural air cooling function, two sets of transmission amplification units have compatibility and also enable plug-in mounting. Things. According to the present invention, there is provided a housing structure of an electronic device in which two units having a radiator are plugged into a housing such that the radiator is on the outside. A fixed connector unit to which a required connector is attached is provided, and a slide connector unit to which a connector fitted to the connector is attached is provided on the housing side so as to be movable inclining with respect to a plug-in direction. The present invention relates to a housing structure of an electronic device in which a fixed connector unit and a slide connector unit are engaged at a predetermined position in an operation, and the connector can be fitted in the remaining plug-in operation. Embodiments of the present invention will be described below with reference to the drawings. In FIGS. 1 and 2, the same components as those shown in FIGS. 4 and 5 are denoted by the same reference numerals. In the figure, a housing 1 has an open front surface, a shelf 28 is provided at a required position from the lower end, and a lower guide rail 3a is provided on the shelf 28 so as to face the lower guide rail 3a. The upper guide rail 3 b is provided on the ceiling surface of the housing 1. A heat dissipation window 8 is formed on a side surface of the housing 1. Two sets of the lower guide rails 3a are provided on the shelf 28, and two sets of the upper guide rails 3b are provided on the ceiling surface. A connector escape hole 29 is formed in the shelf plate 28 along each of the lower guide rails 3a. The two sets of lower guide rails 3a and the connector escape holes 29 are symmetrical in the left-right direction. Jack units 31 which are slide connector units are provided below the connector escape holes 29, respectively. First, the jack unit 31 on the left side in the figure will be described. The jack unit 31 includes a spring 32
Is provided with a slide fitting 33 urged forward. The slide bracket 33 has a connector mounting surface 34 parallel to the shelf board 28 and a vertical surface 35 perpendicular to the connector mounting surface 34. The connector mounting surface 34 is provided with connectors 4, 5, and 6. , And a guide pin 7 is provided upright. A bar-shaped hook 36 is provided upright at the rear end of the connector mounting surface 34. Two vertical cam slits 37 are formed in the vertical surface 35 in parallel from the front side to the rear side.
A cam pin 38 erected on the side surface of the housing 1 is slidably fitted in the cam slit 37. When the jack unit 31 is in a free state, the jack unit 31 is at a forward position by the spring 32.
The cam pin 38 is located at the upper end of the cam slit 37. In this state, the connectors 4, 5, 6 and the guide pins 7 are at positions facing the connector escape holes 29, and the upper ends of the connectors 4, 5, 6 and the guide pins 7
8, the hook 36 has an upper end projecting from the upper surface of the shelf 28 through the connector escape hole 29. Further, the connector escape hole 29 has a sufficient margin behind the hook 36, and even when the vertical surface 35 is slid and the cam pin 38 is positioned at the lower end of the cam slit 37, the hook 36 can be connected to the connector escape hole 29. It does not interfere with 29. On the lower surface of the wiring board 18, a jack unit 41 as a fixed connector unit is provided. The jack unit 41 has a connector fitting 13, and the connectors 14, 15, and
A guide hole 17 is provided. The mounting positions of the connectors 14, 15, 16 and the guide holes 17 correspond to the connector mounting brackets 13.
With the rear end of the connector abutting on the hook 36, the plane positions of the connectors 14, 15, 16 and the guide hole 17 match the plane positions of the connectors 4, 5, 6 and the guide pin 7. ing. Although not shown, the right jack unit 31 will be described. The jack unit 31 on the right side is generally constructed by rotating the jack unit 31 on the left side by 180 ° horizontally. The difference is that the guide pin 7 is at the front end, the hook 36 is at the rear end, The positional relationship between the guide pin 7 and the hook 36 is the same. The inclination direction of the cam slit 37 is also the same, and it is inclined upward from the front side to the rear side. In this case, the positions and directions of the connectors of the left transmission amplification unit 10 and the right transmission amplification unit 11 are reversed. In the radiator 19, the fins of a required range on the front side and the rear side are cut off, and two handles 26 are attached. The handles 26 do not protrude from the outline of the transmission amplification units 10 and 11. I have. Hereinafter, the operation of the embodiment of the present invention will be described with reference to FIGS. 3 (A), 3 (B) and 3 (C). Since the operation of the plug-in of the transmission amplification units 10 and 11 is the same, the operation of the plug-in of the left transmission amplification unit 10 will be described. The transmission amplification unit 10 is connected to the guide rail 3
When inserted along a and 3b, the rear end of the connector mounting bracket 13 comes into contact with the hook 36. Further, when the transmission amplification unit 10 is inserted, the slide fitting 3
3 moves integrally with the transmission amplification unit 10. When the slide fitting 33 moves, the cam slit 37 and the cam pin 38 move relatively, and the cam pin 38 moves up along the inclination of the cam slit 37. First, the guide pins 7 are fitted into the guide holes 17 (see FIG. 2), and the connectors 4, 5, 6 and the connectors 14, 15, 1 are connected.
6 is performed. Further, when the transmission amplification unit 10 is inserted, the connectors 4, 5, 6 and the connectors 14, 15, 16 are fitted, and when the transmission amplification unit 10 is completely mounted, the cam pins 38 are connected to the cam slits. 37, the connectors 4, 5, 6 and the connectors 14, 15, 16 are completely fitted. When the transmission amplification unit 10 is to be pulled out, the handle 26 is pulled out. As the transmission amplification unit 10 is pulled out, the slide fitting 33 also moves forward, and the jack unit 31 moves forward and descends due to the relationship between the cam slit 37 and the cam pin 38. 14, 15, 16 come off the connectors 4, 5, 6. The transmission amplification unit 10 and the transmission amplification unit 11 have the same configuration, and the transmission amplification units 10 and 11 are mounted together by, for example, rotating the transmission amplification unit 11 by 180 ° in the horizontal direction. Can be. In the present embodiment, only two types of slide fittings 33 need to be manufactured, and the production of the two types has almost no effect on cost. Although the jack unit 31 as the slide connector unit is moved in the inclined direction with respect to the plug-in direction by the cam slit 37 and the cam pin 38,
A parallel link may be used instead of the cam slit 37 and the cam pin 38. As described above, according to the present invention, in a housing structure of an electronic device in which two units having a radiator are plugged into a housing such that the radiator is on the outside, The unit is provided with a fixed connector unit in which a required connector is mounted, and a slide connector unit in which a connector fitted to the connector is mounted on the housing side is provided movably inclined with respect to a plug-in direction. The fixed connector unit and the slide connector unit are engaged at a predetermined position of the plug-in operation, and the connector can be mated with the remaining plug-in operation. Can,
Excellent effects in terms of manufacturing, maintenance, and installation, such as no need to manufacture two types of units, no need to manually connect connectors like the open / close structure, and a small installation space for the device. Demonstrate.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective external view showing an embodiment of the present invention. FIG. 2 is a perspective view showing a part of the first embodiment. FIGS. 3A, 3B, and 3C are explanatory views showing the operation of the first embodiment. FIG. 4 is a perspective external view of a conventional example. FIG. 5 is a perspective view showing the operation of a conventional example. FIG. 6 is a perspective view of a transmission amplification unit mounted on the housing of the conventional example. FIG. 7 is a perspective external view of another conventional example. FIG. 8 is a perspective view showing the operation of the other conventional example. [Description of Signs] 1 housing 3 guide rails 4, 5, 6 connector 7 guide pin 14, 15, 16 connector 17 guide hole 18 wiring board 19 radiator 31 jack unit 32 spring 36 hook 37 cam slit 38 cam pin 41 jack unit

Claims (1)

Claims: 1. In a housing structure of an electronic device in which two units having a radiator are plugged into a housing such that the radiator is on the outside, a required connector is attached to the unit. A fixed connector unit is provided, and a slide connector unit in which a connector fitted to the connector is mounted on the housing side is provided so as to be tiltable and movable with respect to a plug-in direction, and at a predetermined position of the plug-in operation of the unit. A housing structure for an electronic device, wherein a fixed connector unit and a slide connector unit are engaged with each other, and the connector can be fitted by the remaining plug-in operation.