JP5707240B2 - Power supply - Google Patents

Description

  The present invention relates to a technique for preventing hot-swap of a power supply device provided with a circuit breaker during rack storage.

A power supply device is usually housed in a rack and connected to a connector of the rack, and power is supplied to the load device by electrically connecting the connector of the rack and a load device such as various electronic devices. ing.
Such a power supply device is pulled out of the rack at the time of maintenance inspection or power supply device replacement, for example. At this time, the switch of the circuit breaker of the power supply device is not turned off, and the power supply device is pulled out of the rack in spite of the current flowing between the power supply device and the connector of the rack. When the “insertion / extraction” occurs, an arc discharge occurs, and the power supply device and the load device may break down or the power supply device and the rack connector may be welded.

Therefore, various techniques for preventing such hot-line insertion / extraction have been studied.
For example, in Patent Document 1, when a housing-side connector of a housing unit containing an electronic device and a rack-side connector of a rack that houses the housing unit are not fitted, an external power source and a rack-side connector are connected. An interlock switch for releasing the connection is disclosed.
As shown in FIG. 14, the interlock switch of this example includes a movable piece in the rack 37 that switches the interlock switch 41 on and off. When the housing unit 31 is housed in the rack 37 and the housing-side connector 35 and the rack-side connector 30 are fitted, the movable piece is pressed by the back surface of the housing unit 31, and the interlock switch 41 is Turn on. Then, a current flows from the transistor 44 to the coil 46, and the relay 45 is turned on by excitation of the coil 46, whereby the external power supply and the rack-side connector 30 are connected. On the other hand, when the housing unit 31 is pulled out from the rack 37 and the pressure on the movable piece is released, the interlock switch 41 is turned off, and the connection between the external power supply and the rack-side connector 30 is also released.

JP 2005-303244 A

However, since such an interlock switch is constituted by an electric circuit, there is a concern of malfunction or failure.
Therefore, there has been a demand for the development of a power supply device that can prevent hot-line insertion / extraction more reliably and with a simple mechanism.

  This invention is made | formed in view of the said situation, and makes it a subject to provide the power supply device which can prevent hot-line insertion / extraction reliably and with a simple mechanism.

The power supply device of the present invention is a power supply device including a circuit breaker that switches on and off of power supply when the movable switch lever operates in the vertical direction, and is provided on a side of the movable switch lever. A fixing means for fixing the power supply device to the rack; and an interlock means for preventing hot-line insertion / removal between the power supply device and the connector of the rack, wherein the interlock means includes the movable switch lever and When the movable switch lever is in an ON state, the interlock means is prevented from sliding in the left-right direction, and one end portion in the left-right direction of the interlock means is When the movable switch lever is in an OFF state when the movable switch lever is in an off state, the interposer is positioned so as to cover the fixed means. The movable means of the movable switch lever is prevented from moving by positioning the other end of the interlock means in the movable area of the movable switch lever. The fixing means is uncovered by the portion, and the fixing means can be operated.
The fixing means includes a fixing screw, and when the movable switch lever is in an OFF state and the fixing screw is loosened and protrudes, an end surface of the one end portion of the interlock means is the fixing screw. It is preferable that sliding of the interlock means is prevented by abutting on the side portion of the interlocking means.
It is preferable that a panel is attached to a surface on which the movable switch lever is provided, and the interlock means is slidably sandwiched between the panel mounting surface and the panel.
A pair of slide pieces bent rearward are formed at the upper end and the lower end of the interlock means, and a pair of upper and lower openings are formed on the surface on which the movable switch lever is provided. The locking means is such that the pair of slide pieces slide while being fitted in the pair of openings, and the maximum possible slide width of the interlock means is controlled by the opening width in the left-right direction of the opening. Is preferred.
The interlock means is provided with a stopper that prohibits the power supply device from being stored in the rack when the movable switch lever is in an on state before the power supply device is stored in the rack. When the power supply device is housed in the rack and the movable switch lever is in an on state, avoid the fixing means from a portion inside the opening edge of the rack in the sliding direction of the interlock means. A base end side extending portion extending in the depth direction of the rack; a bent portion bent from the base end side extending portion and wrapping around the back side of the opening edge; and a bent portion from the bent portion The movable switch lever before the power supply device is housed in the rack. Sometimes, the distal end side extension portion abuts the opening edge from the depth direction of the rack, so that the power supply device is prohibited from being stored in the rack, and the movable switch lever is in an off state. It is preferable that when the interlock means is slid and the stopper is disposed in a space between the opening edge and the power supply device, the power supply device is allowed to be stored in the rack.

  According to the power supply device of the present invention, it is possible to reliably prevent hot-line insertion and removal with a simple mechanism.

It is a perspective view which shows the principal part of the power supply device of one embodiment of this invention. FIG. 2A is an exploded perspective view of the power supply device of FIG. 1, and FIG. It is a perspective view which shows a mode that the power supply device of FIG. 1 is accommodated in a rack. (A) The principal part perspective view in which the movable switch lever of the power supply device of FIG. 1 is an ON state, (b) The typical top view from the upper side of the power supply device of (a). (A) The principal part perspective view in which the movable switch lever of the power supply device of FIG. 1 is an OFF state, (b) The typical top view from the upper side of the power supply device of (a). It is (a) perspective view, (b) top view, (c) front view, (d) side view of the interlock plate which the power supply device of FIG. 1 comprises. It is (a) perspective view which shows the principal part of the power supply device of FIG. 1, (b) It is a fragmentary longitudinal cross-sectional view. It is a figure which shows the power supply device of other one Example of this invention, (a) The typical top view from the upper direction of the power supply device in which a movable switch lever is an OFF state, (b) When a movable switch lever is an ON state It is a typical top view from the upper part of a certain power supply device. It is a figure which shows the power supply device of further another example of embodiment of this invention, (a) The typical top view from the upper direction of the power supply device in which a movable switch lever is an OFF state, (b) A movable switch lever is an ON state It is a typical top view from the upper part of the power supply device which is. It is a figure which shows the interlock plate provided in the power supply device of the further another example of embodiment of this invention, (a) Perspective view, (b) Plan view, (c) Front view, (d) Side view . It is a principal part perspective view of the power supply device which shows the accommodation state to the rack of a power supply device provided with the interlock plate shown in FIG. 10, (a) is a power supply device which shows the accommodation impossible state when a movable switch lever is an ON state. FIG. 4B is a perspective view of a main part of the power supply device showing a storing process when the movable switch lever is in an OFF state, and FIG. 5C is a case where the movable switch lever is in an ON state. It is a principal part perspective view of the power supply device which shows a storage state. It is a typical top view of a power supply device provided with the interlock plate shown in FIG. 10, (a) is a schematic plan view of the power supply device which shows a storage impossible state when a movable switch lever is an ON state, (b) ) Is a schematic plan view from above of the power supply device showing a storage state when the movable switch lever is in an ON state. It is a one part enlarged view of FIG.12 (b). It is a circuit block diagram explaining the conventional interlock switch.

Hereinafter, the present invention will be described in detail with reference to the drawings.
FIG. 1 is a perspective view showing a main part of a power supply device according to an embodiment of the present invention. FIG. 2 is an exploded perspective view (a) of the power supply device of FIG. ). FIG. 3 is a perspective view showing a state in which the power supply device of FIG.
As shown in FIG. 3, the power supply device 10 of this example is housed and fixed in a rack R and connected to a connector (not shown) of the rack R, so that a load such as a communication device connected to the connector is loaded. It supplies power to the device.

As shown in FIG. 1, the power supply device 10 includes a circuit breaker 11, and a movable switch lever 12 of the circuit breaker 11 is disposed in front of the power supply device 10.
The movable switch lever 12 is a three-phase type in which power supply from the power supply device 10 to the load device is switched on and off by operating in the vertical direction. The movable switch lever 12 is shown in FIGS. ), The power supply from the power supply device 10 to the load device is turned on, and the movable switch lever 12 is positioned downward as shown in FIG. 5 (a). The power supply from the power supply device 10 to the load device is turned off.
4B and 5B are schematic plan views of the power supply device in the state of FIGS. 4A and 5A as viewed from above.

  From the viewpoint of fire prevention, a metal panel 13 is attached to the front surface of the power supply device 10, that is, the surface on which the movable switch lever 12 is provided. A part of the panel 13 is cut out in a square shape so that the movable switch lever 12 is exposed, so that the movable switch lever 12 can be operated from the outside of the panel. Yes.

On one side (left side in the figure) of the movable switch lever 12 of the circuit breaker 11, fixing screws (fixing means) 14A and 14A for fixing the power supply device 10 to the rack R when the power supply device 10 is stored in the rack are vertically There are two places.
In the illustrated example, the fixing screws 14 </ b> A and 14 </ b> A are panel fasteners each including a spring and a screw part, and a flange (device fixing member) 15 provided so as to protrude to one side of the front surface of the power supply device 10 is not illustrated. It is attached to the screw hole and is configured not to fall out of the screw hole. When the power supply device 10 is stored in the rack, the power supply device 10 can be fixed to the rack R by screwing these fixing screws 14A and 14A into two screw holes (not shown) formed in the rack R, respectively. .

  And this power supply device 10 is provided between the movable switch lever 12 of the circuit breaker 11 and the fixing screws 14A and 14A as an interlock means for preventing hot plugging between the power supply device 10 and the connector of the rack R. A plate-like interlock plate 16A is slidably mounted in the left-right direction (the arrow direction in FIG. 1).

The interlock plate 16A of this example is formed of a metal plate, and as shown in FIG. 6, at one end portion in the left-right direction (end portion on the fixing screw side), a stepped portion having a height H protruding forward. 17 is formed, and an extending portion 18 extending in the left-right direction is formed at the other end (end on the movable switch lever side). The tip of the extension 18 is an operation piece 18a that is bent forward and slides the interlock plate 16A in the left-right direction.
In addition, a pair of slide pieces 19, 19 bent rearward so as to be parallel to each other are formed at the upper and lower ends of the substantially center in the left-right direction (width direction) of the interlock plate 16 </ b> A.
On the other hand, a pair of guide rails 20, 20 extending in the left-right direction are erected on the front surface of the power supply device 10 between the movable switch lever 12 and the fixing screws 14A, 14A.
The interlock plate 16 </ b> A is configured to be slidable in the left-right direction when the pair of slide pieces 19, 19 slide along the pair of guide rails 20, 20.

  Specifically, as shown in FIG. 7, a pair of U-shaped cuts are made in the front plate 22 that constitutes the front surface of the power supply device 10, and a pair of the cuts surrounded by the cuts is tilted forward. The guide rails 20 and 20 are formed, and a pair of openings 23 and 23 are formed. The pair of slide pieces 19 and 19 of the interlock plate 16A are positioned on the outer sides of the guide rails 20 and 20, respectively, and engage with the guide rails 20 and 20, and the tips of the slide pieces 19 and 19 are opened. Slide while fitting into the parts 23, 23. Therefore, the slide pieces 19, 19 can slide freely in the left-right direction within the range of the opening width W in the left-right direction of the openings 23, 23. In this example, FIG. 4 is a diagram showing a state in which the slide pieces 19 and 19 are positioned at the leftmost end of the openings 23 and 23, and FIG. 5 is a diagram in which the slide pieces 19 and 19 are positioned at the rightmost end of the openings 23 and 23. It is a figure which shows the state which carried out. In FIG. 7, the panel 13 is not shown. Thus, in the illustrated example, the maximum possible slide width of the interlock plate 16A is controlled by the opening width W of the openings 23 and 23.

  In this example, the interlock plate 16 </ b> A is sandwiched between the panel 13 and the mounting surface to which the panel 13 is attached, that is, the front plate 22. Therefore, the interlock plate 16A is prevented from falling forward.

In the power supply device 10, hot-wire insertion / extraction can be reliably prevented by a mechanism described below.
That is, when the power supply device 10 is housed and fixed in the rack R, and the movable switch lever 12 is positioned upward as shown in FIG. In addition, it is necessary that the operation of the fixing screws 14A, 14A be hindered. Therefore, in the power supply device 10, when the movable switch lever 12 is positioned upward, the operation piece 18a of the interlock plate 16A comes into contact with the movable switch lever 12, thereby causing the interlock plate 16A to move rightward (movable in the figure). Slide to the switch lever side) is prevented, and the stepped portion 17 of the interlock plate 16A is positioned so as to cover the screw heads of the fixing screws 14A and 14A. Therefore, even if the operator tries to loosen the fixing screws 14A and 14A by mistake even though the movable switch lever 12 is in the on state, the screw heads of the fixing screws 14A and 14A are caused by the step portion 17 of the interlock plate 16A. Since it is covered, the operation of the fixing screws 14A and 14A is hindered, and hot-line insertion / extraction is reliably prevented.
In FIG. 4B, the interlock plate 16A is hatched for easy understanding of the position of the interlock plate 16A.

On the other hand, as shown in FIG. 5, when the movable switch lever 12 is in the OFF state, the movable switch lever 12 is positioned below, so that the operation piece 18a of the interlock plate 16A does not contact the movable switch lever 12, The operator can pinch the operation piece 18a and slide the interlock plate 16A in the right direction in the drawing to position the extending portion 18 of the interlock plate 16A in the movable region above the movable switch lever 12. . When the extending portion 18 is positioned in this manner, the upward movement of the movable switch lever 12 is prevented, and the operator cannot turn on the movable switch lever 12. At the same time, since the covering of the fixing screws 14A and 14A by the stepped portion 17 of the interlock plate 16A is released, an operation of loosening the fixing screws 14A and 14A becomes possible.
In FIG. 5B as well, the interlock plate 16A is hatched in order to easily show the position of the interlock plate 16A.

  Further, as shown in FIG. 5 (b), the interlock plate 16A of this example has an interlock plate when the movable switch lever 12 is in an OFF state and the fixing screws 14A and 14A are loosened and protrude forward. Even if the lock plate 16A is slid in the left direction (fixed screw side) in the figure, the end surface 17a of the stepped portion 17 abuts on the side part of the fixing screws 14A and 14A. Is prevented from sliding. Thus, when the end surface 17a of the stepped portion 17 is in contact with the side portions of the fixing screws 14A and 14A, the extension portion 18 is positioned in the movable region above the movable switch lever 12, so that the operator can move the movable switch lever 12. Cannot be turned on.

As described above, according to such a power supply device 10, when the movable switch lever 12 is in the ON state, an erroneous operation of loosening the fixing screws 14A and 14A and pulling the power supply device 10 from the rack R can be prevented. The
Further, when the fixing screws 14A and 14A are loosened and the power supply device 10 is not fixed, that is, when the power supply device 10 and the connector of the rack R are not connected, an erroneous operation to turn the movable switch lever 12 on. Is also prevented.

Further, such an interlock plate 16A can prevent hot-line insertion / removal by a simple operation in which the operator simply slides the operation piece 18a in the left-right direction, etc., and is an interlock means constituted by an electric circuit. Like, there is no fear of malfunction or failure.
Furthermore, in this example, since the interlock plate 16A is disposed in front of the power supply apparatus 10 that can be reached by the operator, the operator can safely proceed while checking the position of the interlock plate 16A from beginning to end. .

In this example, a stepped portion 17 having a height H projecting forward is formed at one end of the interlock plate 16A, so that the fixing screws 14A and 14A fix the power supply device 10 to the rack R. In this case, the step portion 17 is configured to securely cover the screw heads of the fixing screws 14A and 14A. However, for example, as shown in FIG. 8, the fixing screw 14 </ b> B is not a panel fastener, and a normal round screw or the like has a low screw head height and can be covered even if the stepped portion 17 is not formed. However, when the flange of the power supply device is attached slightly rearward and the fixing screw 14B can be sufficiently covered even if the stepped portion 17 is not formed, an interlock plate 16B having no stepped portion can be employed. . Alternatively, as shown in FIG. 9, an interlock plate 16 </ b> C having a small stepped portion 17 can be employed. As described above, the presence or absence of the stepped portion, the height, and the like can be set as appropriate, and are not particularly limited.
In FIGS. 8 and 9, the interlock plates 16B and 16C are hatched for easy understanding of the positions of the interlock plates 16B and 16C.

  Further, the interlock plates 16A, 16B, and 16C shown in the above example are formed with an operation piece 18a at the other end, so that the operator can easily operate the interlock plates 16A, 16B, and 16C. However, from the viewpoint of the operation of the interlock plates 16A, 16B, 16C, the operation piece 18a is not necessarily formed.

In the above example, as shown in FIG. 7, both slide pieces 19 and 19 of the interlock plate 16A are fitted in the openings 23 and 23, respectively, and the maximum possible slide width is controlled thereby. It is sufficient that at least one slide piece is fitted in the opening so that the maximum possible slide width can be controlled.
Further, as the fixing means, in addition to the panel fasteners and round screws exemplified above, a slide-type fixing tool in which a clasp slides by operating a knob is also preferably used.
Further, in the above example, two fixing screws 14A and 14A are arranged on the upper and lower sides as the fixing means, but the number thereof is not particularly limited.

Further, in the above example, the three-phase movable switch lever 12 of the circuit breaker 11 is shown. However, the lever that protrudes forward is provided and the power supply is turned on and off by operating the lever vertically. If the switch is switched, the specific configuration is not limited, and the movable switch lever is in the on state when it is in the lower position and is in the off state when it is in the upper position. There may be.
Further, the movable switch lever 12 and the fixing means may be located on the right side or the left side as long as they are located on the left and right.

  Further, for example, as shown in FIG. 2, the power supply device may further include other fixing means 21 and 21 that are not affected by the interlock plate 16 </ b> A on the other side of the front surface of the power supply device 10.

  Next, another embodiment of the present invention will be described. 10A and 10B are views showing the interlock plate 16D. FIG. 10A is a perspective view, FIG. 10B is a plan view, FIG. 10C is a front view, and FIG. A difference from the above-described interlock plates 16 </ b> A to 16 </ b> C is that a stopper 24 is provided. Since the stopper 24 is provided, the above-described stepped portion 17 is divided into upper and lower portions, and stepped portions 171 and 171 are provided at portions corresponding to the fixing screw 14A, respectively. Functionally, it is the same as the stepped portion 17 described above.

  As shown in FIG. 10, the stopper 24 extends from between the stepped portions 171 and 171 to the side opposite to the protruding direction of the stepped portion 171, and sets the base end between the stepped portions 171 and 171. A proximal end extending portion 24a, a stopper bent portion 24b bent from the proximal end extended portion 24a, and a distal end extending portion 24c bent from the stopper bent portion 24b. A stopper end 24d is set on the side extension 24c. As will be described later, the stopper end portion 24d prevents the power supply device 10 from being stored in the rack R (see FIG. 3) when the power supply device 10 is in an on state, and is a connector at the rear of the power supply device 10. To prevent the connector of the rack R from being connected.

  On the other hand, the stopper bending portion 24b avoids interference with a rack post Ra (described later) of the rack R when the power supply device 10 is housed in the rack R and the interlock plate 16D is slid to turn on the movable switch lever 12. Is formed for. In addition to avoiding interference with the rack post Ra of the rack R by providing the stopper bend part 24b, when the power supply device 10 is stored in the rack R, the stopper bend part 24b hits the rack post Ra of the rack R. It is also possible to prevent the power supply device 10 from being pulled out of the rack R by mistake in a live line state. Furthermore, the stopper bending portion 24b is hot when the power supply device 10 and the rack R are not fixed, such as when the fixing screw 14A is not completely closed when the power supply device 10 is stored in the rack R. In this state, it is possible to prevent the power supply device 10 from being pulled out of the rack R by mistake.

  With reference to FIG. 11, FIG. 12, and FIG. 13, the power supply device 10 of the present embodiment including the interlock plate 16D will be described. FIG. 11 is a perspective view of a main part showing a stored state of the power supply device 10 in the rack R. FIG. FIG. 11A is a perspective view of a main part of the power supply device 10 showing a state in which the movable switch lever is not stored when the movable switch lever is in the on state, and FIG. It is a principal part perspective view of the power supply device 10, (c) is a principal part perspective view of the power supply device 10 which shows the accommodation state in case a movable switch lever is an ON state.

  FIG. 12 is a schematic plan view from above of the power supply device 10. FIG. 12A is a schematic plan view from above of the power supply device 10 showing a non-storable state when the movable switch lever is in the on state, and FIG. 12B is a stowage when the movable switch lever is in the on state. It is a typical top view from the upper part of the power supply device 10 which shows a state. FIG. 13 is an enlarged view of a part of FIG.

  In FIG. 11A, when the movable switch lever 12 is in the ON state, that is, when the power supply is in the ON state, the interlock plate 16D is slid in the left direction in the figure (shown in the left direction in the figure). (See arrow L). When the power supply device 10 is to be inserted into the rack R in this state, the stopper end 24d of the stopper 24 hits the rack post Ra of the rack R and cannot be inserted any more. Accordingly, as shown in FIG. 12A, the connector 25 at the rear of the power supply device 10 and the connector 26 of the rack R are prevented from being electrically connected when the power supply device 10 is turned on. Therefore, it is possible to prevent an overcurrent from flowing due to the occurrence of arc discharge between the connectors 25 and 26, and it is possible to prevent failure of the power supply device and load device and welding between the connectors. The rack Ra of the rack R described above is a member that constitutes an edge portion of an opening that is a receiving port of the power supply device 10 of the rack R, and is a member that extends in the vertical direction. In FIG. 12, G indicates a guide for guiding the power supply apparatus 10 in the depth direction of the rack R, and this guide G is provided so as to protrude from the mounting surface of the power supply apparatus 10 in the rack R. It is.

  In FIG. 11B, when the movable switch lever 12 is in the off state, that is, when the power supply is in the off state, the interlock plate 16D is slid rightward in the drawing. In this state, the power supply device 10 can be stored in the rack R without the stopper end 24d of the stopper 24 hitting the rack post Ra of the rack R. That is, in this state, when viewed in the depth direction of the rack R (when viewed from the front), the stopper 24 is disposed in a space between the gantry Ra and the outer wall portion of the power supply device 10, and the stopper 24 is laid on the gantry Ra. The power supply device 10 is allowed to be stored in the rack R without interfering with the power supply.

  Until the power supply device 10 is completely stored in the rack R, even if the interlock plate 16D is slid in the direction of the arrow L, the side surface of the distal end side extension 24c of the stopper 24 is the end surface Raa of the pedestal Ra. (See FIG. 13) and the sliding motion is prevented. Therefore, in a state where the power supply device 10 and the rack R are not normally connected, the movable switch lever 12 cannot be moved to the on state by the operation piece 18a.

  In FIG. 11C, when the power supply device 10 is housed in the rack R and the movable switch lever 12 is in the on state, that is, in the live line state, the interlock plate 16D is slid leftward in the drawing. ing. In this state, as shown in FIG. 12 (b), the stopper bending portion 24b of the stopper 24 is positioned so as to wrap around the back side of the pillar Ra, and between the stopper bending portion 24b and the step portions 171 and 171. A part of the rack column Ra of the rack R enters. That is, as shown in FIG. 13, a part of the pedestal Ra of the rack R enters a U-shaped space formed by the stopper bent portion 24 b of the stopper 24 and the stepped portions 171, 171, and the stopper bent portion 24 b And the pillar Ra are opposed to each other.

  As described above, when the power supply device 10 is stored in the rack R and is in a live line state, even if the power supply device 10 is erroneously pulled out, the stopper bending portion 24b of the stopper 24 collides with the rack post Ra of the rack R. The power supply device 10 can be prevented from being pulled out from the rack R. In a state where the power supply device 10 is normally stored in the rack R and the side surface of the stopper bending portion 24b faces the pedestal Ra, the side surface of the stopper bending portion 24b does not need to be in contact with the pedestal Ra. It does not matter if there are some intervals. However, when trying to pull out the power supply device 10 from the rack R, it is necessary to set the interval so that the side surface of the stopper bending portion 24b hits the support pillar Ra and the connector 25 of the power supply device 10 does not come out of the connector 26 of the rack R. There is.

  Here, as shown in FIG. 13, the proximal-side extending portion 24a of the stopper 24 is a portion inside the end surface Raa of the rack post R of the rack R of the interlock plate 16D in the sliding direction of the interlock plate 16D. It is formed so as to extend in the depth direction of the rack R by avoiding the flange 151 and the fixing screws 14A and 14A (portion indicated by 16Da in the drawing). In this way, the base end side extension portion 24a is formed, and the stopper bending portion 24b is bent from the base end side extension portion 24a to slide the interlock plate 16D after the power supply device 10 is stored. At this time, the stopper 24 can cover the fixing screws 14a and 14a with the interlock plate 16D without interfering with the rack R. In the present embodiment, the fixing screws 14A and 14A are fixed to the flange 151 in the same manner as the above-described flange 15. However, the flange 151 is divided into upper and lower portions corresponding to the formation of the stopper 24. Is different.

  Next, the size of the stopper 24 will be described with reference to FIGS. 10 (b), 12 (a) and 12 (b). The distance between the base end portion of the stopper 24 and the stopper bending portion 24b (the length of the base end side extension portion 24a) h1 is set in consideration of the height H of the stepped portion 171. In other words, the sum (H + h1) of the step height H of the step portion 171 and the distance h1 between the stopper bent portions 24b is the height of the screw head of the fixing screw 14A, the thickness of the flange 151, and the thickness of the column Ra of the rack R. When a force that pulls out the power supply device 10 from the rack R in a live line state is applied, the side surface of the stopper bending portion 24b collides with the support column Ra of the rack R, and the connector 25 of the power supply device 10 is connected to the rack. The length of the interval h1 is set so that the size does not come out of the R connector 26.

  Further, the distance h2 from the stopper bending portion 24b to the stopper end portion 24d (the length of the distal end side extension portion 24c) is the state in which the flange 151 is in contact with the mounting column Ra, that is, the flange 151 and the mounting column Ra. The distance between the flange 151 and the pillar Ra is a predetermined distance on the basis of the state in which the connector 25 of the power supply apparatus 10 and the connector 26 of the rack R are completely electrically connected. The distance h2 from the stopper bent portion 24b to the stopper end 24d is set so that the distance can be maintained.

  Further, in the above embodiment, the stepped portions 171 and 171 have a step with a height H, but depending on the height of the screw head of the fixing screw 14A, the presence or absence of a step and the height H can be set as appropriate. There is no particular limitation. Furthermore, in the above embodiment, the stopper 24 is formed between the two step portions 171 and 171 formed by cutting out the central portion of the step portion 17 of the interlock plate 16A in FIG. The locations and the number thereof are not limited to this. For example, the upper end and the lower end of the stepped portion 17 shown in FIG. 6 may be cut out and the stoppers 24 may be formed at these two locations. In the above embodiment, the horizontal power supply device 10 has been described. However, the present invention is not limited to this, and it is needless to say that the present invention can be similarly applied to a vertical power supply device.

  As described above, in the present embodiment, when the movable switch lever 12 is in the ON state before the power supply device 10 is stored in the rack R, the interlock plate 16D is prohibited from storing the power supply device 10 in the rack R. A stopper 24 is provided, and this stopper 24 is an opening edge of the rack R of the interlock plate 16D in the sliding direction of the interlock plate 16D when the power supply device 10 is housed in the rack R and the movable switch lever 12 is in the ON state. The base end side extending portion 24a that extends in the depth direction of the rack R by avoiding the fixing screws 14A and 14A from the portion inside the gantry post Ra, and the base end side extending portion 24a are bent. A bent portion 24b that wraps around the back side of the pillar Ra, and a distal end side extension that is bent from the bent portion 24b and extends in the depth direction of the rack R And part 24c, in being configured. And in this power supply device 10, when the movable switch lever 12 before being accommodated in the rack R is in the on state, the distal end side extending portion 24c abuts on the pedestal Ra from the depth direction of the rack R, so that the rack R The movable switch lever 1 is turned off and the interlock plate 16D is slid from this state, and the stopper 24 is disposed in the space between the gantry Ra and the power supply device 10. Storage in the rack R is allowed.

  According to such a configuration, when the power supply device 10 is in the on state, the power supply device 10 is prevented from being stored in the rack R, and when the power supply device 10 is in the on state, the connector 25 of the power supply device 10 and the connector of the rack R 26 can be prevented with a simple configuration. Moreover, when the interlock plate 16D is slid in the direction to cover the fixing screws 14A and 14A during storage, the fixing screws 14a and 14a can be properly covered while avoiding interference with the rack pillar Ra of the rack R. When the power supply device 10 is housed, the bent portion 24b is located on the back side of the pedestal Ra and prevents the power supply device 10 from being pulled out, so that erroneous operation in a live line state can be prevented.

R: Rack 10: Power supply device 11: Circuit breaker 12: Movable switch lever 13: Front panel 14A, 14B: Fixing screw (fixing means)
16A-16C: Interlock plate (interlock means)
19: Slide piece 23: Opening 24: Stopper

Claims (4)

A power supply device including a circuit breaker that switches on and off of power supply by operating a movable switch lever in a vertical direction,
A fixing means provided on a side of the movable switch lever for fixing the power supply device to the rack;
Interlocking means for preventing hot-line insertion and removal between the power supply device and the rack connector,
The interlock means is slidably mounted between the movable switch lever and the fixing means,
When the movable switch lever is in an ON state, the interlock means is prevented from sliding in the left-right direction, and one end portion in the left-right direction of the interlock means is positioned so as to cover the fixing means. Operation is hindered,
When the movable switch lever is in the OFF state, the interlock means can be slid in the left-right direction, and the other end of the interlock means is positioned in the movable area of the movable switch lever, thereby allowing the movable switch lever to move. the movable is prevented, and the the cover is released at one end by the securing means, Ri Do allow manipulation of said fixing means,
The fixing means comprises a fixing screw;
When the movable switch lever is in an OFF state and the fixing screw is loosened and protrudes, the end surface of the one end portion of the interlock means comes into contact with the side portion of the fixing screw, thereby A power supply apparatus characterized in that sliding of the interlock means is prevented. A power supply device including a circuit breaker that switches on and off of power supply by operating a movable switch lever in a vertical direction,
A fixing means provided on a side of the movable switch lever for fixing the power supply device to the rack;
Interlocking means for preventing hot-line insertion and removal between the power supply device and the rack connector,
The interlock means is slidably mounted between the movable switch lever and the fixing means,
When the movable switch lever is in an ON state, the interlock means is prevented from sliding in the left-right direction, and one end portion in the left-right direction of the interlock means is positioned so as to cover the fixing means. Operation is hindered,
When the movable switch lever is in the OFF state, the interlock means can be slid in the left-right direction, and the other end of the interlock means is positioned in the movable area of the movable switch lever, thereby allowing the movable switch lever to move. the movable is prevented, and the the cover is released at one end by the securing means, Ri Do allow manipulation of said fixing means,
The interlock means is provided with a stopper that prohibits the power supply device from being stored in the rack when the movable switch lever is on before the power supply device is stored in the rack.
The stopper is fixed from a position inside the opening edge of the interlock means in the sliding direction of the interlock means in a sliding direction of the interlock means when the power supply device is housed in the rack and the movable switch lever is turned on. A base end side extending portion extending in the depth direction of the rack while avoiding the means; a bent portion bent from the base end side extending portion and wrapping around the back side of the opening edge portion; and the bent portion And a distal end side extending portion extending in the depth direction of the rack,
When the movable switch lever before the power supply device is housed in the rack is in the on state, the distal end side extension portion contacts the opening edge from the depth direction of the rack, so that the power supply device When storing in the rack is prohibited, and when the movable switch lever is in the OFF state, the interlock means is slid, and when the stopper is disposed in the space between the opening edge and the power supply device, A power supply device, wherein the power supply device is allowed to be stored in the rack. A panel is attached to the surface on which the movable switch lever is provided,
The power supply apparatus according to claim 1 or 2, wherein the interlock means is slidably sandwiched between a mounting surface of the panel and the panel. A pair of slide pieces bent rearward are formed at the upper and lower ends of the interlock means, and a pair of upper and lower openings are formed on the surface on which the movable switch lever is provided,
The interlock means slides with the pair of slide pieces fitted into the pair of openings, and the maximum possible slide width of the interlock means is controlled by the opening width in the left-right direction of the openings. The power supply device according to claim 1, wherein the power supply device is a power supply device.

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