JP3725681B2 - Power supply device and computer system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power supply apparatus having a function for replacing an operating redundant power supply unit suitable for use in a computer system.
The present invention also relates to a computer system, such as a PC server, which has a plurality of redundant power supply unit mounting mechanisms in a housing and enables the power supply unit to be replaced during operation.
[0002]
[Prior art]
In recent years, the number of power sources such as a PC server in a computer system adopts a redundant or N + 1 redundant system.
As a feature of this redundant power supply system, when one of a plurality of power supply units constituting the power supply system fails, there is a function of replacing with a normal power supply without shutting off the power supply of the system.
[0003]
This function is called an in-service replacement function, and can be replaced or expanded without interrupting system operation, and is a very effective function as a highly reliable PC server.
[0004]
Means for realizing the in-operation exchange function using this kind of redundant power supply will be described with reference to FIGS.
FIG. 8 is a view of the PC server as seen from the back side, and replacement of the power supply unit during operation is performed by inserting / removing it from the back side toward the front side. FIG. 9 is a block diagram of the internal power supply configuration of FIG.
[0005]
In the figure, 80 is a casing of a PC server, 81 and 81 are power supply units constituting a redundant power source, and 82 and 82 are power on / off switches (AC switches) provided on the back of the casing of the power supply units 81 and 81. , 83 is an AC power input unit (ACBOX) provided with an AC power distribution circuit, a fuse box, a noise filter, and the like, 84 is a circuit connection of the power units 81 and 81, and the power generated by the power units 81 and 81 It is a power back panel unit (power BP) that supplies (here, DC output power) to each load of the PC server.
[0006]
In the PC server, two power supply units (power supply 1, power supply 2) 81, 81 can be mounted on the housing 80. The PC server can be operated by one power supply unit (power supply 1 or power supply 2) 81 of them.
[0007]
Here, when one of the power supply units (power supply 1 or power supply 2) 81 fails, the output of the failed power supply unit 81 stops, but the AC power supply is turned on between the power supply units for control signals and the like. Therefore, in order to stabilize the power output of the PC server, when replacing the unit, turn off the AC switch of the failed power supply unit (after switching it off). A method of removing the power supply unit from the housing is common.
[0008]
Also, when a normal power supply unit is mounted instead of a failed power supply unit, the power output will become unstable if it is not inserted (mounted) into the chassis with the power output or control signal turned off. Therefore, the AC switch 82 is cut before mounting.
[0009]
By performing the power supply attachment / detachment control described above, it is possible to replace the failed power supply without stopping the power supply to the system even if a power supply unit failure occurs.
In addition to the configuration described above, the AC power supply can be turned on / off by directly plugging the AC cable into the AC inlet of the power supply unit and inserting / removing the AC cable plug into / from the AC inlet. There is also a thing.
[0010]
However, in the power supply mounting structure of the conventional PC server described above, the power supply unit can be inserted / removed without turning off the AC switch (or with the AC cable plug inserted into the AC inlet). Therefore, when unplugging / mounting the power supply unit, the operation procedure is incorrect, the AC switch is forgotten to be turned off (with the AC switch turned on), or the AC cable plug is plugged into the AC inlet. In this case, there is a risk of system power shut down, system initialization, etc., leading to a serious accident in a PC server that emphasizes high reliability. The problem of having sex was left. These problems are not limited to PC servers, and similar problems occur in computer systems having other redundant power supplies.
[0011]
[Problems to be solved by the invention]
As described above, in the power supply mounting structure in the conventional PC server, the power supply unit can be inserted and removed without turning off the AC switch (or with the AC cable plug inserted into the AC inlet). When removing / mounting the power supply unit, replace the power supply unit with an incorrect operation procedure, forgetting to turn off the AC switch (while the AC switch is on), or with the AC cable plug inserted into the AC inlet. In this case, there is a problem that the system power supply may be stopped, system initialization may occur, and a serious accident may occur in a PC server that emphasizes high reliability. It was. Also, other computer systems having redundant power supplies have the same problem.
[0012]
The present invention has been made in view of the above circumstances, and in a power supply device having a function of replacing a power supply unit applied to a computer system, if the power switch is not turned off, the power supply unit can be replaced. Each power supply unit is equipped with a locking mechanism that cannot be used, and it is possible to reliably prevent various inconveniences in system operation due to operational mistakes when replacing the power supply unit. An object is to provide a power supply device having a function.
[0013]
Further, according to the present invention, in a power supply device having a function of replacing a power supply unit that is applied to a computer system, the power supply unit is replaced if the power plug is not removed from the inlet of the power supply unit. The power supply unit is equipped with a locking mechanism that cannot be used, and it is possible to reliably prevent various inconveniences in system operation due to operational mistakes during power supply unit failure replacement. An object is to provide a power supply device having a function.
[0014]
Further, the present invention is provided in a power supply unit in a computer system such as a PC server that includes a plurality of power supply unit mounting mechanisms constituting a redundant power supply in a housing and enables the power supply unit to be replaced during operation. Each power supply unit is equipped with a locking mechanism that cannot replace the power supply unit if the power switch is not turned off, ensuring various inconveniences in system operation due to operational mistakes when replacing the power supply unit. An object of the present invention is to provide a computer system capable of preventing the power supply unit from being exchanged during operation.
[0015]
The present invention also provides a computer system, such as a PC server, that includes a plurality of power supply unit mounting mechanisms that constitute a redundant power supply in a casing and that allows the power supply unit to be replaced during operation. The power supply unit is equipped with a locking mechanism that cannot replace the power supply unit unless it is unplugged, ensuring various inconveniences in system operation due to operational mistakes when replacing the power supply unit. An object of the present invention is to provide a computer system capable of preventing the power supply unit from being exchanged during operation.
[0016]
[Means for Solving the Problems]
According to the present invention, the power supply unit is provided with a locking mechanism related to the AC power input mechanism such as a power switch and a power plug so that the power switch is not turned off or the power plug is not pulled out from the inlet of the power unit. The power supply unit is not replaceable.
[0017]
That is, the present invention provides a power supply apparatus that allows a plurality of power supply units to be mounted in a casing and can be replaced without interrupting system operation. The operation is restricted when the switch is in the switch-on position, and the restriction is released when the switch is in the switch-off position, and a locking mechanism is provided that allows the unit to be removed from the housing.
[0018]
Further, the present invention provides a power supply apparatus in which a plurality of power supply units can be mounted in a casing and the power supply units can be replaced without interrupting system operation. Operation is restricted when the power plug is inserted into the power input inlet, and when the power plug is removed, the restriction is released and a locking mechanism is provided that allows the unit to be removed from the housing. Features.
[0019]
In the power supply apparatus according to the present invention, the locking mechanism is configured using a slide plate that can move in a linear direction or a slide plate that rotates about a fulcrum.
[0020]
Further, according to the present invention, in the above power supply device, when the toggle switch is used as the power switch and the switch is turned on by operating the switch-side operation unit (the button-side abdomen) of the switch, the switch-off operation unit When the off-side operation part projects from the panel surface of the housing and the off-side operation part closes the slide passage of the slide plate and the off-side operation part is operated to switch off, the off-side operation part is The structure is characterized in that the slide passage of the slide plate is released by being flush with or immersed in the panel surface of the housing.
[0021]
Further, the present invention provides a slide plate having a vertical passage end at a position that partially covers the off-side operation portion of the power switch and a position that protrudes a predetermined amount from the lower end of the unit housing, and the slide plate A locking mechanism is constituted by a slide plate support fixing screw that slidably supports and fixed at an arbitrary position, and a slide guide hole into which the slide plate support fixing screw is inserted.
[0022]
Further, the present invention provides a structure in which the plug closes the slide passage of the slide plate when the plug is inserted into the inlet and releases the slide passage of the slide plate when the plug is removed from the inlet. It is characterized by that.
[0023]
According to the present invention, there is provided a slide plate having a vertical passage end at a position covering a part of the AC power input inlet and a position protruding a predetermined amount from the lower end of the unit housing. A locking mechanism is constituted by a slide plate support fixing screw that is slidably supported and fixed at an arbitrary position, and a slide guide hole into which the slide plate support fixing screw is inserted.
[0024]
Further, the present invention provides a computer system such as a PC server that includes a plurality of power supply unit mounting mechanisms that constitute a redundant power supply in a casing and enables the power supply unit to be replaced during operation. The AC switch that controls the supply of external AC power to the power circuit inside the unit and the slide amount are restricted when the AC switch is in the switch-on position, and the slide amount restriction is released when the AC switch is in the switch-off position. When the slide amount is regulated, the power supply unit is fixed at a fixed position in the computer system housing, and when the slide amount regulation is released, the slide enables the power supply unit to be removed from the computer system housing. And a plate.
[0025]
Further, the present invention provides a computer system such as a PC server that includes a plurality of power supply unit mounting mechanisms that constitute a redundant power supply in a casing and enables the power supply unit to be replaced during operation. AC housing that receives AC power supplied from the outside via an AC cable and AC plug, and the amount of sliding when the AC plug is inserted into the AC inlet, the AC plug is inserted When the slide amount is not restricted, the restriction on the slide amount is released. When the slide amount is restricted, the power supply unit is fixed at a fixed position in the housing of the computer system. When the restriction on the slide amount is released, the power supply unit is And a slide plate that can be removed from the housing of the system.
[0026]
Further, according to the present invention, in the above computer system, when the toggle switch is used as the AC switch and the on-side operation unit of the switch is operated to be in the switch-on state, the off-side operation unit protrudes from the panel surface of the casing. When the off-side operation unit closes the slide passage of the slide plate and the off-side operation unit is operated to be in the switch-off state, the off-side operation unit is flush with or immersed in the panel surface of the housing. It is characterized by having a structure in which the slide passage is opened.
[0027]
According to the present invention, in the above computer system, when the AC plug is inserted into the AC inlet, the AC plug blocks the slide passage of the slide plate, and when the AC plug is removed from the AC inlet, the slide passage of the slide plate is provided. It is characterized by having a structure that releases
[0028]
As described above, in a power supply device having a function for replacing a power supply unit that is applied to a computer system, the power switch is not turned off or the power plug is not removed from the inlet of the power supply unit. By providing each power supply unit with a mechanism that cannot replace the power supply unit, it is possible to surely prevent various inconveniences in system operation due to an operation error at the time of replacing the power supply unit.
[0029]
In addition, in a computer system that has a plurality of power supply unit mounting mechanisms that configure a redundant power supply in the housing and allows the power supply unit to be replaced during operation, if the power switch is not turned off or from the power supply unit inlet The power supply unit is equipped with a mechanism that prevents the power supply unit from being replaced if the power plug is not removed, ensuring various system operation inconveniences due to operational mistakes when replacing the power supply unit. Can be prevented.
[0030]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. Here, a PC server is taken as an example of a computer system for realizing the present invention.
FIGS. 1 to 3 are diagrams for explaining the first embodiment of the present invention. FIG. 1 is a view of the PC server as viewed from the back, and FIG. 2 shows the configuration of the main part in the first embodiment. A front view and FIG. 3 are the side views.
[0031]
In the figure, reference numeral 10 denotes a casing of a PC server (PDV), and reference numerals 11 and 11 denote power supply units (PS) which are housed in the casing 10 so that they can be inserted and removed from the rear side.
Reference numeral 12 denotes a power on / off switch (AC switch) provided in each of the power supply units (PS) 11, which is configured by using a toggle switch called a waveform switch, and is turned on / off every time the unit is replaced. Operated. The AC switch (SW) 12 is operated when the ON-side operation unit (on-side abdomen of the operation button) is pressed to be in the switch-on state. The abdomen is protruded from the panel surface of the unit housing, and is attached so that the off-side operation unit is flush with the panel surface of the housing when the off-side operation unit is pressed to switch off.
[0032]
Reference numeral 13 denotes a locking mechanism (LM) provided in each of the power supply units (PS) 11. As shown in FIGS. 2 and 3, a slide plate 13a, a slide plate support fixing screw 13b, and a slide guide hole 13c are provided. It consists of.
[0033]
The slide plate 13a is connected to the lower half (off side) of the operating portion of the AC switch (SW) 12 as shown by a solid line and a two-dot chain line in FIG. The slide position and the slide amount are regulated with the operation portion) position and the position protruding a predetermined amount from the lower end of the unit housing as the upper and lower passage ends.
[0034]
The slide plate support fixing screw 13b is loosely inserted into the slide guide hole 13c of the slide plate 13a to support the slide plate 13a so as to be slidable, and the slide plate 13a is fixed at an arbitrary slide position by tightening the screw. To do.
[0035]
In the above configuration, when the AC switch (SW) 12 is in the switch-on position, the off-side operation part (the off-side abdomen of the operation button) of the switch protrudes from the panel surface of the housing, and the locking mechanism (LM) 13, the slide path of the 13 slide plates 13 a is blocked, and the slide plate 13 a cannot be slid to the slide upper end indicated by a two-dot chain line in FIG. 2, so the lower end of the slide plate 13 a is the inside of the PC server (PDV) housing 10. Is located.
[0036]
Therefore, the AC switch (SW) 12 is turned off so that the off-side operation part of the switch (the off-side abdomen of the operation button) is flush with the panel surface of the unit housing. Unless the slide plate 13a can be slid to the upper end of the slide as indicated by a two-dot chain line in FIG.
[0037]
As a result, when the power supply unit (PS) 11 is to be replaced in the PC server (PDV), the power supply unit (PS) 11 is not turned on unless the AC switch (SW) 12 is switched off. It cannot be removed from the PC server (PDV) housing 10.
[0038]
Further, when the power supply unit (PS) 11 is housed (attached) in the PC server (PDV) housing 10, the AC switch (SW) 12 is operated to be turned off, and the off-side operation unit (operation) of the switch is operated. Unless the slide plate 13a is slid to the upper end of the slide as shown by a two-dot chain line in FIG. Engage with the PC server (PDV) housing 10 to connect the power supply unit (PS) 11 to the PC server.
(PDV) It cannot be stored in the housing 10.
[0039]
As a result, when the power supply unit (PS) 11 is to be mounted on the PC server (PDV) housing 10, the power supply unit (PS) 11 is not turned on unless the AC switch (SW) 12 is switched off. It cannot be stored in the PC server (PDV) housing 10.
[0040]
By providing the locking mechanism (LM) 13 as described above in each of the power supply units (PS) 11, 11, system operation associated with an operation error of the AC switch (SW) 12 at the time of failure replacement of the power supply unit, etc. Various inconveniences can be surely prevented.
[0041]
Further, the locking mechanism (LM) 13 does not require any expensive parts and can be realized at a very low cost, and the PC server (PDV) housing 10 does not require any work, so that the cost of the entire system is reduced. Therefore, the present invention can be easily applied not only to a PC server but also to various computer systems that require stable operation at all times.
[0042]
4 to 6 are diagrams for explaining the second embodiment of the present invention, FIG. 4 is a rear view of the PC server, FIG. 5 is a front view showing the configuration of the main part, and FIG. 6 is a side view of the same. is there.
[0043]
In the figure, reference numeral 20 denotes a casing of a PC server (PDV), and reference numerals 21 and 21 denote power supply units (PS) which are housed in the casing 20 so as to be removable from the back side.
Reference numeral 22 denotes an AC power supply input inlet provided in each power supply unit (PS) 21.
[0044]
Reference numerals 23a to 23c constitute components of the locking mechanism provided in each of the power supply units (PS) 21. Reference numeral 23a denotes a slide plate, 23b denotes a slide plate support fixing screw, and 23c denotes a slide guide hole.
[0045]
The slide plate 23a is connected to the lower half position of the AC power input inlet 22 and the unit casing as shown by a solid line and a two-dot chain line in FIG. The slide position and slide amount are regulated with the position protruding from the lower end by a predetermined amount as the upper and lower passage ends.
[0046]
The slide plate support fixing screw 23b is loosely inserted into the slide guide hole 23c of the slide plate 23a to support the slide plate 23a so as to be slidable, and the slide plate 23a is fixed at an arbitrary slide position by tightening the screw. To do.
[0047]
Reference numeral 25 denotes a power plug at the tip of the power cord inserted into the AC power input inlet 22.
In the above configuration, when the power plug 25 provided at the tip of the power cord is inserted into the AC power input inlet 22, the power plug 25 closes the slide passage of the slide plate 23a, and the slide plate 23a is illustrated. 5, the lower end of the slide plate 23 a is located inside the PC server (PDV) housing 20.
[0048]
Therefore, unless the power plug 25 is removed from the AC power input inlet 22 and the slide plate 23a can be slid to the upper end of the slide as shown by a two-dot chain line in FIG. 5, the slide plate 23a and the PC server (PDV) housing 20 Cannot be disengaged.
[0049]
Thereby, in the PC server (PDV), when the power supply unit (PS) 21 is to be replaced, the power plug 25 is removed from the AC power input inlet 22 and the AC power supply is cut off. The power supply unit (PS) 21 cannot be removed from the PC server (PDV) housing 20.
[0050]
Also, when the power supply unit (PS) 11 is housed (attached) in the PC server (PDV) housing 10, the power plug 25 is removed from the AC power input inlet 22, and the slide plate 23a is shown in FIG. Unless the slide plate 23a and the PC server (PDV) housing 20 are engaged with each other, the engagement between the slide plate 23a and the PC server (PDV) housing 20 cannot be released unless the slide upper end is slidable as shown by the chain line.
[0051]
Thus, when the power supply unit (PS) 11 is to be mounted on the PC server (PDV) housing 10, the power plug 25 is removed from the AC power input inlet 22 and the AC power supply is not cut off. The power supply unit (PS) 21 cannot be stored in the PC server (PDV) housing 20.
[0052]
By providing each of the power supply units (PS) 21 and 21 with the locking mechanism as described above, it is possible to reliably prevent various inconveniences in system operation due to an AC power supply error when the power supply unit is failed or replaced. Can do.
[0053]
In addition, the locking mechanism can be realized at a very low cost without requiring any expensive parts, and does not require any work on the PC server (PDV) housing 20, thus significantly reducing the cost of the entire system. Therefore, the present invention is not limited to the PC server, and can be easily applied to various computer systems that always require stable operation.
[0054]
FIG. 7 is a diagram showing a configuration of a main part according to the third embodiment of the present invention.
In FIG. 7, reference numeral 30 denotes a PC server (PDV) housing, and reference numerals 31 and 31 denote power supply units (PS) housed in the PC server (PDV) housing 30 so as to be removable from the back side. .
[0055]
Reference numeral 32 denotes a power ON / OFF switch (AC switch) provided in each of the power supply units (PS) 31. The power ON / OFF switch (AC switch) is constituted by a toggle switch called a waveform switch. Operated. This AC switch (SW) 32 is operated when the ON-side operation part (ON-side abdomen of the operation button) is pressed to enter the switch-ON state, and the OFF-side operation part (OFF-side of the operation button) The abdomen is protruded from the panel surface of the unit housing, and is attached so that the off-side operation unit is flush with the panel surface of the housing when the off-side operation unit is pressed to switch off.
[0056]
Reference numeral 33 denotes a slide plate which is a component of the locking mechanism provided in each power supply unit (PS) 31, and the operation unit (operation button of the operation button) of the AC switch (SW) 32 is centered on the fulcrum 34. It is provided so as to be rotatable between a solid line position and an alternate long and short dash line position across the off-side abdomen. Reference numeral 35 denotes a stopper provided in the unit casing for restricting the rotational position of the slide plate 33. When the power supply unit (PS) 31 is mounted on the PC server (PDV) casing 30, The slide plate 33 provided in the unit is supported at the position indicated by the solid line in the figure, and a part of the slide plate 13 is engaged in the PC server housing, and the power supply unit (PS) 31 from the PC server (PDV) housing 30 is engaged. Prevents removal.
[0057]
In the above configuration, when the AC switch (SW) 32 is in the switch-on position, the off-side operation part of the switch (the off-side abdomen of the operation button) protrudes from the panel surface of the housing and the slide plate 33 slides. Since the passage is blocked and the slide plate 33 cannot be slid to the slide upper end indicated by the alternate long and short dash line in FIG. 7, a part of the slide plate 33 is located inside the PC server (PDV) housing 30.
[0058]
Accordingly, the AC switch (SW) 32 is turned off so that the off-side operation part of the switch (the off-side abdomen of the operation button) is flush with the panel surface of the unit housing. The slide plate 33 and the PC server (PDV) housing 30 cannot be disengaged unless the slide plate 33 is slidable to the upper end of the slide indicated by the alternate long and short dash line in FIG.
[0059]
As a result, when the power supply unit (PS) 31 is to be replaced in the PC server (PDV) 30, the power supply unit (PS) 31 is not after the AC switch (SW) 32 is switched off. Cannot be removed from the PC server (PDV) housing 30.
[0060]
Further, when the power supply unit (PS) 31 is housed (attached) in the PC server (PDV) housing 30, the AC switch (SW) 32 is operated to be turned off, and the off-side operation unit (operation) of the switch is operated. Unless the slide plate 33 can be slid to the upper end of the slide as shown by the alternate long and short dash line in FIG. The power supply unit (PS) 31 cannot be stored in the PC server (PDV) housing 30 by engaging with the server (PDV) housing 30.
[0061]
As a result, when the power supply unit (PS) 31 is to be mounted on the PC server (PDV) housing 30, the power supply unit (PS) 31 is not turned on unless the AC switch (SW) 32 is switched off. It cannot be stored in the PC server (PDV) housing 30.
[0062]
By providing each of the power supply units (PS) 31 and 31 with a locking mechanism using the slide plate 33 that rotates around the fulcrum 34 as described above, the AC switch (SW ) Various inconveniences in system operation due to 32 operation mistakes can be surely prevented.
[0063]
In the embodiment shown in FIG. 7 described above, a locking mechanism using a rotating slide plate whose operation is restricted when the power switch is in the switch-on position is taken as an example. For example, a power plug is inserted into the AC power input inlet of the power unit. Similarly, a locking mechanism using a rotating slide plate whose operation is restricted when being operated can be implemented.
[0064]
In each of the embodiments described above, the PC server in which the power supply unit can be replaced during operation has been described as an example. However, the present invention is not limited to the PC server, and can be easily applied to various computer systems that require stable operation at all times. Applicable. Further, the configuration of the locking mechanism provided in the power supply unit is not limited to that shown in the figure, and may be another structure in which the operation is interfered by the state of the AC switch or the power input inlet.
[0065]
【The invention's effect】
As described above in detail, according to the present invention, in a power supply device having a function of replacing a power supply unit that is applied to a computer system, if the power switch is not turned off, the power supply unit can be replaced. By providing each power supply unit with a locking mechanism that cannot be used, it is possible to reliably prevent various inconveniences in system operation due to an operation error of the power switch at the time of failure replacement of the power supply unit.
[0066]
Further, according to the present invention, in a power supply device having a function of replacing a power supply unit applied to a computer system, if the power plug is not removed from the inlet of the power supply unit, the power supply unit is replaced. By providing the power supply unit with a locking mechanism that cannot be performed, it is possible to reliably prevent various inconveniences in system operation due to an operation error during replacement of the power supply unit.
[0067]
Further, according to the present invention, in a computer system such as a PC server, which is provided with a plurality of power supply unit mounting mechanisms constituting a redundant power supply in a casing and enables the power supply unit to be replaced during operation, the power supply unit is provided with the power supply unit. Each power supply unit is provided with a locking mechanism that cannot replace the power supply unit unless the power switch is turned off. Inconvenience can be reliably prevented.
[0068]
Further, according to the present invention, in a computer system such as a PC server that includes a plurality of power supply unit mounting mechanisms that constitute a redundant power supply in a casing and enables the power supply unit to be replaced during operation, the inlet of the power supply unit Since the power supply unit is equipped with a locking mechanism that cannot replace the power supply unit if the power plug is not further removed, various system operations can be performed due to operational mistakes during replacement of the power supply unit. Inconvenience can be reliably prevented.
[Brief description of the drawings]
FIG. 1 is a rear view of a PC server according to a first embodiment of the present invention.
FIG. 2 is a front view showing a configuration of a main part in the first embodiment.
FIG. 3 is a side view showing a configuration of a main part in the first embodiment.
FIG. 4 is a rear view of a PC server according to a second embodiment of the present invention.
FIG. 5 is a front view showing a configuration of a main part in the second embodiment.
FIG. 6 is a side view showing a configuration of a main part in the second embodiment.
FIG. 7 is a front view showing a configuration of a main part in the third embodiment.
FIG. 8 is a rear view of a conventional PC server.
FIG. 9 is a block diagram showing a redundant power supply configuration of a PC server.
[Explanation of symbols]
10: PC server (PDV),
11 ... power supply unit (PS),
12 ... Power on / off switch (AC switch),
13 ... Locking mechanism (LM),
13a ... slide plate,
13b ... Slide plate support fixing screw,
13c ... slide guide hole,
14 ... Slide guide,
20: PC server (PDV) housing,
21 ... Power supply unit (PS),
22 ... AC power input inlet,
23a ... slide plate,
23b ... Slide plate support fixing screw,
23c ... slide guide hole,
24 ... Slide guide,
25 ... Power plug,
30: PC server (PDV) housing,
31 ... Power supply unit (PS),
32 ... Power on / off switch (AC switch),
33 ... slide plate,
34 ... fulcrum,
35: Stopper.

Claims (14)

In a power supply device in which a plurality of power supply units can be mounted in a housing and the power supply unit can be replaced without interrupting system operation, the power switch of the unit is in the switch-on position. A power supply apparatus comprising a locking mechanism that is restricted in operation at a certain time and is released when the switch is in a switch-off position so that the unit can be removed from the housing. In a power supply device that allows a plurality of power supply units to be mounted in a housing and can be replaced without interrupting system operation, each power supply unit has a power plug connected to the AC power input inlet of the unit. A power supply apparatus comprising: a locking mechanism that restricts the operation when the plug is inserted, and releases the restriction when the power plug is unplugged so that the unit can be removed from the housing. The power supply device according to claim 1 or 2, wherein the locking mechanism is configured by using a slide plate that can move in a linear direction or a slide plate that rotates about a fulcrum. When a toggle switch is used as the power switch and the on-side operation part of the switch is operated to be in the switch-on state, the off-side operation part protrudes from the panel surface of the housing, and the off-side operation part passes through the slide path of the slide plate. 4. The slide passage of the slide plate is released when the off-side operation unit is in a switch-off state by closing and the off-side operation unit is flush with or immersed in the panel surface of the housing. Power supply. 4. The power supply device according to claim 2, wherein when the plug is inserted into the inlet, the plug closes the slide passage of the slide plate, and releases the slide passage of the slide plate when the plug is removed from the inlet. The locking mechanism includes a slide plate having a position that partially covers the off-side operation portion of the power switch and a position that protrudes a predetermined amount from the lower end of the unit housing, and a slide plate that supports the slide plate so that the slide plate can be slid. The power supply device according to claim 1, comprising: a slide plate support fixing screw that is fixed by a slide guide, and a slide guide hole into which the slide plate support fixing screw is inserted. The locking mechanism includes a slide plate that has a position that covers a part of the AC power input inlet and a position that protrudes a predetermined amount from the lower end of the unit housing, and a slide plate that supports the slide plate in a slidable manner at an arbitrary position. 3. The power supply device according to claim 2, comprising a slide plate support fixing screw to be fixed and a slide guide hole into which the slide plate support fixing screw is inserted. In a computer system provided with a plurality of power supply unit mounting mechanisms constituting a redundant power supply in a casing and enabling replacement during operation of the power supply unit,
In the chassis of each redundant power supply unit,
An AC switch for controlling the supply of external AC power to the power circuit inside the unit;
When the AC switch is in the switch-on position, the slide amount is restricted. When the AC switch is in the switch-off position, the restriction of the slide amount is released. When the slide amount is restricted, the power supply unit is fixed in the housing of the computer system. And a slide plate that allows the power supply unit to be removed from the housing of the computer system when the restriction on the slide amount is released. In a computer system provided with a plurality of power supply unit mounting mechanisms constituting a redundant power supply in a casing and enabling replacement during operation of the power supply unit,
In the chassis of each redundant power supply unit,
An AC inlet for receiving AC power supplied from the outside via an AC cable and an AC plug;
When the AC plug is inserted into the AC inlet, the slide amount is restricted. When the AC plug is not inserted, the slide amount restriction is released. When the slide amount is restricted, the power supply unit is connected to the computer. A computer system, comprising: a slide plate that is fixed at a fixed position in the housing of the system and that allows the power supply unit to be removed from the housing of the computer system when the restriction on the slide amount is released. When a toggle switch is used as the AC switch and the on-side operation part of the switch is operated to be in the switch-on state, the off-side operation part protrudes from the panel surface of the housing and the off-side operation part passes through the slide path of the slide plate. 9. The computer according to claim 8, wherein when the switch is closed and the off-side operation unit is operated to be in a switch-off state, the off-side operation unit is flush with or immersed in the panel surface of the housing, and the slide passage of the slide plate is released. system. 10. The computer system according to claim 9, wherein the AC plug closes the slide passage of the slide plate when the AC plug is inserted into the AC inlet, and releases the slide passage of the slide plate when the AC plug is removed from the AC inlet. The computer system according to claim 8, 9, 10, or 11, wherein a slide plate that rotates about a fulcrum is used. The slide plate has a slide guide hole into which a slide plate support fixing screw that slidably supports the slide plate and fixes the slide plate at an arbitrary position, and partially covers the off-side operation portion of the power switch. The computer system according to claim 8, wherein a position projecting a predetermined amount from the lower end of the unit housing is defined as an upper and lower passage end. The slide plate has a slide guide hole into which a slide plate support fixing screw that supports the slide plate so as to be slidable and is fixed at an arbitrary position, covers a part of the AC inlet, and a unit housing. The computer system according to claim 9, wherein a position protruding from the lower end by a predetermined amount is an upper and lower passage end.

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