JP2013235894A - Rack for electronic equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a rack for electronic equipment capable of connecting various cables to be connected with electronic equipment and the like housed over many shelves in the rack with less labor in a short time, and of increasing efficiency of connection works and convenience.SOLUTION: A rack 10 for electronic equipment having a rack main body 11 housing electronic equipment 20-24, such as servers, over many shelves, is configured so that a double-door type back face door 15 consisting of first and second back face doors 15A and 15B is provided to the rack main body 11. This back face door 15 is provided with a power cable 30A and a communication cable 30B and the like for feeding a power and a signal from exterior via various connection terminals 20A and 20B and the like that are preliminarily mounted on the many electronic equipment 20-24. The power cable 30A and the communication cable 30B and the like are mounted on the back face door 15 preliminarily in a factory or the like.

Description

  The present invention relates to an electronic device rack, and more particularly, to an electronic device rack in which a large number of electronic devices such as servers are accommodated.

  In general, when a large number of electronic devices such as servers are accommodated in an electronic device rack, a power cable or a communication connection cable such as a LAN is provided on the back of each electronic device after the electronic devices are accommodated. Installation is done one by one.

As described above, when various cables are connected to an electronic device such as a server, it is performed on the back surface of each electronic device. However, there is a problem that a lot of labor is required for connection.
Therefore, a game machine in which wiring equipment is provided on the back side of a door is known as a simplified connection of cables (see Patent Document 1).
In the gaming machine disclosed in Patent Document 1, a glass door is provided so as to be openable and closable with respect to the wooden outer frame of the pachinko machine, and a female connector is provided on the front frame of the wooden outer frame. A male connector is provided.
Thereby, when the glass door is opened and closed, the female connector and the male connector are switched to a connected state or a non-connected state.

Moreover, the technique comprised so that it may energize only by covering a covering holder on a casing is known (refer patent document 2).
In the battery box or storage battery to be inserted into the battery compartment of the electric device disclosed in Patent Document 2, an overload protection fuse is provided in one covering holder, whereas the other casing is overloaded. First and second contact springs and the like corresponding to the protective fuse are provided, and the power can be supplied simply by covering the casing with the covering holder.

JP 2007-325683 A Japanese Patent Publication No.59-139554

However, in the conventional rack for electronic devices, electronic devices such as servers are accommodated in a large number of stages in the rack for electronic devices, and one connection cable such as a LAN must be connected to each of the electronic devices. .
Therefore, since the number of connection cables increases, the connection work takes a lot of time and effort, and it becomes difficult to handle the cables. As a result, there is a problem that the work efficiency is poor.

  In the gaming machine disclosed in Patent Document 1, a male connector is provided on the back surface of one glass door, and a female connector is provided on the front frame of the wooden outer frame. It is difficult to connect various cables to an electronic device such as a server housed in the server.

  Furthermore, it is difficult to connect various cables to electronic devices such as servers housed in multiple stages even in the configuration of the battery box or the storage battery to be inserted into the battery compartment of the electrical device disclosed in Patent Document 2. is there.

  In order to solve the above-described problems, the present invention can connect various cables connected to electronic devices and the like housed in multiple stages in a rack with less effort and less time, and increase the efficiency of cable connection work. It is another object of the present invention to provide an electronic device rack that can be used for convenience.

In order to achieve the above object, an electronic device rack according to the present invention is an electronic device rack including a rack body that houses a plurality of electronic devices such as servers.
While providing a back door on the rack body, the back door,
A power supply cable and a communication cable for sending electric power and signals from the outside are provided through various connection terminals preliminarily provided in the numerous electronic devices.

  According to the electronic device rack of the present invention, the power supply cable and the communication cable are provided on the rear door provided on the rack body, and these power supply cable and communication cable are provided in advance in many electronic devices. Since power and signals can be sent to various connection terminals, the server cable can be connected with a one-touch operation of simply closing the rear door. As a result, it is possible to connect various cables connected to electronic devices and the like housed in multiple stages in the rack with less effort and less time, and the efficiency and convenience of cable connection work can be achieved.

1 is an overall front perspective view showing an embodiment of an electronic device rack according to the present invention. FIG. 2 is a rear perspective view illustrating a part of an electronic device rack in which a large number of electronic devices such as servers are accommodated in the rack of FIG. 1. It is a schematic sectional side view which shows the connection type bus bar which comprises the electronic device accommodated in the rack for electronic devices of the said embodiment, and a power cable. FIG. 4A shows a connection structure between a power plug mounted on the double door of the embodiment and a power socket mounted on an electronic device, and FIG. 4A is a schematic plan view of the state before the power plug and the power socket are joined together. FIG. 4B is a schematic plan view showing a state in which the power plug and the power socket are joined. 4A is a schematic diagram showing a state in the middle from FIG. 4A to FIG. 4B, and a state in which the power plug and the power socket are joined is a vertical cross-sectional view taken along line VV in FIG. is there. It is a schematic plan view which shows the deformation | transformation form of the connection structure of the power plug with which the said double doors were equipped, and the power socket with which the electronic device was equipped.

  Hereinafter, an embodiment of an electronic equipment rack (hereinafter simply referred to as a rack) 10 according to the present invention will be described in detail with reference to FIGS.

1 is an overall front perspective view of the rack 10, FIG. 2 is a rear perspective view when an electronic device 20 such as a server accommodated in the rack 10 is accommodated, and FIG. 3 is an electronic device accommodated in the rack 10. It is a schematic sectional side view which shows 20 and the connection type bus-bar 40 which comprises a power cable.
Here, the rack 10 of this embodiment is a 19-inch type rack, for example.

The rack 10 of the embodiment is an improvement over a conventional rack for electronic devices that houses various electronic devices such as servers, and the efficiency and convenience of connecting various cables (cabling) in the rack for electronic devices. It has a mechanism to improve the performance.
That is, as shown in FIG. 1, the rack 10 includes a rack body 11 that houses a plurality of stages of electronic devices 20 to 24 such as servers. The rack body 11 is provided with a back door 15 and the back surface. Power supply cables 30A to 34A for sending electric power and signals from the outside to the door 15 via various connection terminals 20A to 24A and 20B to 24B previously installed in a large number of electronic devices 20 to 24 and for communication Cables 30B to 34B are provided.

  On the front surface of the rack body 11, for example, a front door 12 of a double door type is provided. The front door 12 includes a first front door 12A and a second front door 12B. These first and second front doors 12A and 12B cover the entire surface of the rack body 11 so as to be freely opened and closed. It is formed in such a size.

The rack body 11 is arranged in the vertical direction, for example, four of the first frame portion 13A, the second frame portion 13B, the third frame portion 13C, and the fourth frame portion 13D that house four electronic devices 20 to 24, respectively. It is divided into two step frames 13.
In each of these frame portions 13A to 13D, the first electronic device 20, the second electronic device 21, the third electronic device 22, and the fourth electronic device 20 in the state shown in FIG. An electronic device 23 and a fifth electronic device 24 are accommodated.
Further, for example, a cellular chamber (not shown) for individually storing a large number of electronic devices 20 to 24 is provided inside each frame portion 13A and the like, and a first chamber is provided in the cellular chamber. A holding mechanism (not shown) is provided so that the electronic device 20 can be securely held at a predetermined position.

As shown in FIG. 2, a double door type rear door 15 is also provided on the back of the rack body 11.
That is, the back door 15 is composed of first and second back doors 15A and 15B, and can be opened and closed in the left-right direction via unillustrated hinges. A handle (not shown) is provided on the surfaces of the rear doors 15A and 15B in order to facilitate the opening and closing of the rear doors 15A and 15B.

The rear door 15 shown in FIG. 2 corresponds to the third frame portion 13C, and the first electronic device 20 and the second electronic device are included in the third frame portion 13C. 21, the third electronic device 22, the fourth electronic device 23, and the fifth electronic device 24 are accommodated in five stages in the vertical direction.
Here, also in the 2nd frame part 13B and the 4th frame part 13D which adjoin the 3rd frame part 13C above and below, each 1st-5th electronic devices 20-24 are accommodated similarly to the above. A rear door 15 including first and second rear doors 15A and 15B corresponding to each of the first and second rear doors 15A and 15B is provided so as to be freely opened and closed.
That is, at least two sets (four sets in the embodiment) of the first and second back doors 15A and 15B constituting the back door 15 are arranged in the vertical direction.

  Power sockets 20A, 21A, 22A, 23A, and 24A are mounted in advance on the back surface of each of the first to fifth electronic devices 20 to 24 in the third frame portion 13C at a factory or the like. When these power sockets 20A and the like are housed in the third frame portion 13C, they are arranged on one end in the width direction of the first back door 15A, that is, closer to the hinge (not shown) side.

  Further, on the back surface of each electronic device 20-24, for example, female connectors 20B, 21B, 22B, 23B, 24B, such as LAN connectors, are installed in advance at the factory or the like. Each of these female connectors 20B and the like is disposed at a position away from the power socket 20A and the like of each electronic device 20 to 24 and on the lower side. And it equips with the state divided into 2 in the width direction of each electronic device 20-24.

  On the other hand, as described above, the first and second rear doors 15A and 15B, which are four sets in the vertical direction, are provided on the back surface of the rack 10 so as to be openable and closable in the horizontal direction. These back doors 15A and 15B are formed in a size that covers the entire back surface of each of the electronic devices 20 to 24 over five levels when they are closed.

As shown in FIG. 2, on the back surface of the first back door 15A, on one end side in the width direction (close to the hinge not shown), a power cable is formed and arranged at predetermined intervals in the vertical direction. In addition, five rows of power plugders 30A, 31A, 32A, 33A, and 34A are provided.
These power plugdas 30A and the like correspond to the power sockets 20A, 21A, 22A, 23A, and 24A equipped in the electronic devices 20 to 24, respectively, and are used to send power to the power sockets 20A and the like. Is.
When the first back door 15A is closed, the power plugdas 30A and the like and the power sockets 20A and the like are fitted and connected, so that electricity is communicated with each other.
And these power plugdas 30A etc. are equipped in the factory etc. beforehand.

Here, based on the schematic diagrams of FIGS. 4A and 4B and FIG. 5, a connection structure between the power plugda 30A and the power socket 20A will be described.
For example, three connection terminals 35 are provided on the power plugda 30A or the like that is equipped in advance on the back surface of the first back door 15A. Each connection terminal 35 has a substantially quadrangular prism shape having a front end surface 35A (see FIG. 5) in the rotation direction, two side surfaces 35B orthogonal to the front end surface 35A in the rotation direction, and a protruding front end surface 35C. .
4A indicates that the first opening / closing door 15A rotates in the direction perpendicular to the plane of the paper, that is, in the direction of reference C. In FIG.

On the other hand, three terminal receiving members 25 corresponding to the three connection terminals 35 are provided on the back surface of the female connector 20 </ b> A of the electronic device 20.
Each terminal receiving member 25 includes a front end receiving surface 25A that contacts the front end surface 35A in the rotational direction of the three connection terminals 35, a side receiving surface 25B that contacts the two side surfaces 35B, and the protruding front end surface 35C. It has a planar angle C-shape having a tip receiving surface 25C that abuts.
As described above, the three connection terminals 35 such as the power plugda 30A and the terminal receiving member 25 such as the female connector 20A are in contact with each other at four locations.
Here, each terminal receiving member 25 is formed of a member having a spring property, for example.
In FIG. 3, the power plugda 30A and the power socket 20A and the like are omitted.

  As shown in FIGS. 2 and 3, for example, male connector boards 30B, 31B, and 32B, which constitute a communication cable and are arranged in five rows in the vertical direction on the back surface of the first back door 15A. , 33B, 34B. Each of the male connector boards 30B and the like is formed to have a length extending from the end of the door 11 on the opening / closing front end side to a position close to the power plugs 30A, 31A, 32A, 33A, 34A.

The male connector boards 30B, 31B, 32B, 33B, and 34B correspond to the female connectors 20B, 21B, 22B, 23B, and 24B of the electronic devices 20 to 24, respectively. When closed, the male connector boards 30B and the like and the female connectors 20B and the like are fitted and connected.
Here, the male connector board 30B and the like equipped on the first back door 15A are connected to one of the two divided connectors such as the female connector 20B and the like equipped on the electronic device 20 and the like.

  A male connector board (not shown) similar to the male connector boards 30B, 31B, 32B, 33B, and 34B is provided on the back surface of the second back door 15B. The male connector board equipped in 15B is connected to the other of the two divided connectors such as the female connector 20B equipped in the electronic device 20 or the like.

On the back surface of the other back door 12, connector boards similar to the connector boards 12A to 12E provided on the first back door 15A are provided. And each connector board | substrate of the door 12 respond | corresponds to the connectors 22A-22E of one side in the connectors 22A-22E of each said electronic device 20A-20E, respectively, and is connected.
The male connector board 30B and the like provided on the first back door 15A and the second back door 15B are also equipped in advance at a factory or the like.

As shown in FIGS. 2 and 3, a connecting bus bar 40 constituting a power cable is provided on the surface of the first back door 15A.
Here, a long and thin bar-shaped metal generally used in place of the power supply line is called a bus bar, and a long and narrow rectangular shape is often used.

The bus bar 40 includes a first bus bar 40A, a second bus bar 40B, a third bus bar 40C, and a fourth bus bar (not shown).
The first bus bar 40A is disposed on the first back door 15A of the back door 15 provided on the fourth frame portion 13D, and the second bus bar 40B is the third frame portion above the fourth frame portion 13D. It is arranged on the first back door 15A of the back door 15 at 13C. Further, the third bus bar 40C is arranged on the second frame portion 13B, and the fourth bus bar (not shown) is arranged on the first back door 15A of the back door 15 in the first frame portion 13A.
When all of the four first rear doors 15A that are continuous in the vertical direction are closed, the bus bars 40A, 40B, 40C, and the like are connected and can be energized.

Each bus bar 40A, 40B, 40C, etc. is formed in the length substantially the same as the 1st back door 15A of each back door 15. As shown in FIG.
In addition, a connecting portion 40M for connecting to a bus bar 40B provided on another set of first back doors 15A disposed above the bus bar 40 is provided at the upper end of the bus bar 40A and the like. Yes. The connecting portion 40M is formed in the shape of two plates arranged at a predetermined interval, and these connecting portions 40M are arranged orthogonal to the surface of the first back door 15A. Yes.

  On the other hand, at the lower ends of the first bus bar 40A, the second bus bar 40B, etc., below the second bus bar 40B, the second bus bar 40B arranged below the first bus bar 40A. A lower connection portion 40N is provided that can come into contact with the connection portion 40M of the base bus bar 41 (described below).

A base bus bar 41 is provided on the bottom frame 11A of the rack body 11 as shown in FIGS. The base bus bar 41 supplies power to the first bus bar 40A and the subsequent parts connected to the upper part.
A connection power cable 42 for connecting to an external power source is connected to the base bus bar 41. Further, the connection portion 40M for connecting to the upper first bus bar 40A is provided at the upper end portion of the base bus bar 41.

Here, as shown in FIG. 2, for example, when connecting the second bus bar 40B and the first bus bar 40A, and the second bus bar 40B and the third bus bar 40C, the respective bus bars 40B and the like are provided. When the rear door 15A of the first bus 15A is closed, the lower and lower ends of the first rear door 15A so that the connecting portions 40M provided at the upper ends of the second bus bar 40B and the first bus bar 40A can rotate. A notch 15K is formed in the part.
Further, a cutout portion 15K is formed on the surface and lower portion of the third bus bar 40C so that the connection portion 40M of the second bus bar 40B can be rotated.

For this reason, when the first back door 15A is closed, the connecting portion 40M of the second bus bar 40B that rotates together with the rotation of the back door 15A also rotates. The connecting portion 40M is inserted through the notch 15K. When the first rear door 15A is completely closed, it comes into contact with the lower connecting portion 40N.
And when the connection part 40M and the lower connection part 40N contact | abut, both bus-bars 40A and 40B are electrically connected.
Further, in order to reliably hold the contact state between the connecting portion 40M and the lower connecting portion 40N, there is a connecting portion holding mechanism (in the vicinity of the connecting portions such as the bus bars 40A and 40B adjacent to each other in the vertical direction). (Not shown) is provided.

  As shown in FIG. 2, five rows of cable groups 45 are provided in the vertical direction on the surfaces of the first and second rear doors 15A and 15B. These cable groups 45 correspond to and are connected to the male connectors 30B, 31B, 32B, 33B, and 34B, respectively.

Next, the operation of the electronic device rack 10 according to the embodiment will be described with reference to FIGS.
The power sockets 20A, 21A, 22A, 23A, 24A and the female connectors 20B, 21B, 22B, 23B, 24B of the electronic devices 20-24 housed in the predetermined frame portion 13A of the rack body 11, etc., and the first Power plugs 30A, 31A, 32A, 33A, and 34A equipped on the rear door 15A of the first connector and male connectors 30B, 31B, 32B, 33B, and 34B equipped on the first and second back doors 15A and 15B. Can be performed as shown in FIG.

That is, as shown in FIG. 3, the first back door 15A and the second back door 15B are closed, and the first electronic device 20 is moved from the front side of the rack body 11 along the arrow A direction. Then, it is inserted into the cellular part (not shown) for the first electronic device 20.
When the first electronic device 20 is further pushed in, the female connector 20A of the first electronic device 20 is fitted into the male connector 30A preliminarily mounted on the first back door 15A, thereby Both connectors 20A and 30A are energized.
The second electronic device 21 and the third, fourth, and fifth electronic devices 22, 23, and 24 are also equipped with male connectors 31A, 32A, 33A and 34A are respectively fitted, whereby both connectors 21A, 31A and the like are energized.

  On the other hand, first, the electronic devices 20 to 24 are accommodated and held in the cellular chamber, and the first back door 15A and the second back door 15B are closed. The mold connector 30A and the like may be engaged with the female connector 20A and the like.

According to the electronic device rack 10 having the above configuration, the following effects can be obtained.
(1) A power cable 30A, a communication cable 30B, and the like are provided on the rear door 15 provided in the rack body 11, and these power cable 30A and communication cable 30B are provided in advance to a large number of electronic devices 20-24. Since power and signals can be sent to the various connection terminals 20A, 20B and the like equipped, the server cable can be connected by a one-touch operation of simply closing the back door 15. As a result, it is possible to connect various cables connected to the electronic devices 20 to 24 and the like housed in a large number of stages in the rack body 11 with less effort and less time, and to improve the efficiency and convenience of cable connection work. it can.

(2) Since the back door 15 provided on the rack body 11 is a double door, it requires less space to open than when a single door back door is provided. Even when there is no wide space on the back of the rack 10, the rack 10 can be installed.

(3) A set of back doors 15 is composed of a first back door 15A and a second back door 15B, and the size of the first and second back doors 15A and 15B is 5 in the vertical direction. Since it is sized to cover the first to fourth electronic devices 20 to 24 accommodated over the steps, and four sets of back doors 15 having such a size are provided, one set of the back doors 15 The size can be reduced, the door can be downsized, and the door can be easily opened and closed.

(4) Connected bus bars 40A, 40B, 40C, etc. are provided on the first back door 15A of the four sets of back doors 15 provided on the back of the rack body 11, and each of these bus bars 40A, 40B, 40C. Since power can be sent to the power plug 30A or the like, the number of power cables can be reduced, and convenience is improved. In addition, troublesome cable handling when a large number of power cables are required is also eliminated.

(5) Since a large number of electronic devices 20 to 24 can be directly connected to the bus bars 40A, 40B, 40C, etc. with one touch, it is possible to reduce the labor for connection and the number of power cables in the rack. Improves.

(6) Connected bus bars 40A, 40B, 40C, etc. are provided on the first back door 15A of the four sets of back doors 15, respectively, and the bus bars 40A, 40B, 40C, etc. close the first back door 15A. Therefore, it is a mechanism to connect with each other. Since the connection portion holding mechanism (not shown) is provided in the connection portion such as the bus bar 40A, the connection terminal such as the bus bar 40A or the like is unlikely to be damaged due to an impact at the time of connection. Thus, the connection terminals can be protected, and safety can be improved.

  The present invention has been described above with reference to the above embodiment, but the present invention is not limited to the above embodiment. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention. In addition, the present invention includes a combination of some or all of the configurations of the above embodiments as appropriate.

  For example, in the above-described embodiment, the electronic devices 20 to 4 housed in the electronic device rack are servers. However, the present invention is not limited to this, and the unit to which the cable is connected is housed in the electronic device rack 10. It can also be applied to.

  Moreover, in the said embodiment, the shape corresponding to the five electronic devices 20 among the many electronic devices 20 accommodated in the up-down direction in the back door 15 which consists of the 1st back door 15A and the 2nd back door 15B. However, the present invention is not limited to this, and a shape corresponding to 5 or more or 5 or less, or a single back door covering the entire back surface of the rack body 11 may be used depending on the size of the rack body 11.

Furthermore, in the said embodiment, although the back door 15 was made into the double doors type back door which consists of 1st back door 15A and 2nd back door 15B, it is not restricted to this. It may be formed by a single-sided rear door.
However, in this case, a sufficient space for opening and closing a single-sided rear door is required on the back side where the electronic device rack 10 is disposed. It is preferable to use the rear door.

(Appendix 1)
A rack for an electronic device having a rack body for storing electronic devices such as servers over a number of stages,
While providing a back door on the rack body, the back door,
A rack for electronic equipment, comprising a power cable and a communication cable for sending electric power and signals from the outside through various connection terminals preliminarily equipped in the numerous electronic equipments.

(Appendix 2)
In the electronic equipment rack described in appendix 1,
A rack for electronic equipment, wherein the back door is a double door rear door comprising a first and a second back door.

(Appendix 3)
In the electronic device rack described in Appendix 1 or Appendix 2,
The first back door and the second back door are doors having a size corresponding to a preset number of steps among the electronic devices housed over the multiple steps,
An electronic equipment rack comprising at least two sets of the first back door and the second back door which are divided into upper and lower portions.

(Appendix 4)
In the electronic equipment rack described in Appendix 2 or Appendix 3,
A large number of power plugs constituting the power cable and a large number of connector boards constituting the communication cable are provided on the back surface of one of the first back door and the second back door of each set. A rack for electronic equipment, which is mounted in a vertical direction at regular intervals, and each of these power plugs and connector boards are arranged in correspondence with power sockets and connectors provided in the respective electronic equipment.

(Appendix 5)
In the electronic equipment rack described in appendix 4,
A bus bar is provided on the surface of one of the rear doors of each of the sets so as to correspond to the plurality of power plugs and constitutes the power cable and supplies electricity to the power plug. Rack for electronic equipment.

(Appendix 6)
In the electronic equipment rack described in appendix 5,
The bus bar provided on one of the rear doors of each of the groups, and the other bus bar provided on the other one of the rear doors disposed above or below the one of the rear doors, A rack for electronic equipment, which is connected to each other and energized when one of the rear doors is closed.

(Appendix 7)
In the electronic equipment rack described in appendix 5 or appendix 6,
A base bus bar is fixed to the bottom surface of the rack body, and the base bus bar can be connected to the bus bar provided on any one of the back doors arranged at the bottom of the rack body. A rack for electronic equipment, characterized in that a connection power cable for supplying electricity from an external power source to the base bus bar is provided on the base bus bar.

(Appendix 8)
In the electronic device rack described in any one of appendix 4 to appendix 7,
Engagement of the power plug and the power socket with respect to the power plug that pivots and moves integrally with any one of the rear doors, at least the protruding connection terminal of the power plug is connected to the power socket. A rack for electronic equipment, characterized in that a side surface portion at the front end in the rotation direction and a terminal receiving portion for receiving the front end portion so as to contact each other are formed.

  The present invention can be used when electronic devices such as servers are accommodated in multiple stages.

DESCRIPTION OF SYMBOLS 10 Rack for electronic devices 11 Rack main body 15 Double door rear door 15A 1st back door 15B 2nd back door 20A, 21A, 22A, 23A, 24A Power socket 20B, 21B, 22B, 23B, 24B Female connector 30A , 31A, 32A, 33A, 34A Power plugs 30B, 31B, 32B, 33B, 34B Male connector 40 Bus bar 40A First bus bar 40B Second bus bar 40C Third bus bar 41 Base bus bar 42 Connection power cable

Claims (8)

A rack for an electronic device having a rack body for storing electronic devices such as servers over a number of stages,
While providing a back door on the rack body, the back door,
A rack for electronic equipment, comprising a power cable and a communication cable for sending electric power and signals from the outside through various connection terminals preliminarily equipped in the numerous electronic equipments. The electronic equipment rack according to claim 1,
A rack for electronic equipment, wherein the back door is a double door with a first and a second back door. In the electronic equipment rack according to claim 1 or 2,
The first back door and the second back door are doors having a size corresponding to a preset number of steps among the electronic devices housed over the multiple steps,
An electronic equipment rack comprising at least two sets of the first back door and the second back door which are divided into upper and lower portions. In the electronic equipment rack according to claim 2 or 3,
A large number of power plugs constituting the power cable and a large number of connector boards constituting the communication cable are provided on the back surface of one of the first back door and the second back door of each set. A rack for electronic equipment, which is mounted in a vertical direction at regular intervals, and each of these power plugs and connector boards are arranged in correspondence with power sockets and connectors provided in the respective electronic equipment. The electronic equipment rack according to claim 4,
A bus bar is provided on the surface of one of the rear doors of each of the sets so as to correspond to the plurality of power plugs and constitutes the power cable and supplies electricity to the power plug. Rack for electronic equipment. The rack for electronic equipment according to claim 5,
The bus bar provided on one of the rear doors of each of the groups, and the other bus bar provided on the other one of the rear doors disposed above or below the one of the rear doors, A rack for electronic equipment, which is connected to each other and energized when one of the rear doors is closed. In the electronic equipment rack according to claim 5 or 6,
A base bus bar is fixed to the bottom surface of the rack body, and the base bus bar can be connected to the bus bar provided on any one of the back doors arranged at the bottom of the rack body. A rack for electronic equipment, characterized in that a connection power cable for supplying electricity from an external power source to the base bus bar is provided on the base bus bar. In the rack for electronic devices as described in any one of Claim 4 thru | or 7,
Engagement of the power plug and the power socket with respect to the power plug that pivots and moves integrally with any one of the rear doors, at least the protruding connection terminal of the power plug is connected to the power socket. A rack for electronic equipment, characterized in that a side surface portion at the front end in the rotation direction and a terminal receiving portion for receiving the front end portion so as to contact each other are formed.

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