JP2005217380A - Cabinet truck - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cabinet truck which has a quake-absorbing function with a simple structure. <P>SOLUTION: A mount frame 5 is located right and left between an uppermost frame and a lowermost frame 2 of a body frame constituting the cabinet truck body, and an vibration absorbing means 6 are located at a connecting portion joining the lowermost frame 2 and the mount frame 5 and at a connecting portion joining the uppermost frame and the mount frame 5. The vibration absorbing means 6 has a sheet spring expanding right and left and allows the mount frame 5 to move right and left. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a cabinet rack having a seismic isolation function for accommodating electronic devices such as communication devices and computers, and storing articles that are vulnerable to vibration.

As a form to accommodate electronic devices such as communication devices and computers, rack-mount type devices with bar-shaped mounting frames on the left and right and operation switches and signal line connection terminals placed on the front of the device can be directly attached and accommodated In addition, cabinet racks that accommodate equipment by attaching shelves between mount frames are widely used.
Electronic devices such as communication devices may malfunction or break down due to vibrations such as earthquakes, and the seismic isolation structure of cabinet racks is progressing to prevent such a situation. In addition, it is desirable to store valuable items that are easy to break in a cabinet rack etc. that has a seismic isolation structure. To provide a seismic isolation function, for example, as shown in Patent Document 1, a cabinet rack having a seismic isolation structure at the bottom is used.
JP 2000-320610 A

However, the configuration using the above-mentioned base isolation table has two cabinet cabinets, so that installation is troublesome and costly. Moreover, the cabinet rack provided with the seismic isolation structure is also complicated and expensive because the entire lower part of the cabinet rack has the seismic isolation structure. In addition, since the upper part of the cabinet rack is not supported by a wall or the like, depending on the form of vibration, the cabinet rack may become unstable and fall down.
Therefore, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a cabinet rack that can be provided with a seismic isolation function with a simple structure and can further prevent overturning.

In order to solve the above-mentioned problems, the invention of claim 1 is characterized in that at least a pair of mount frames for housing devices are arranged on the left and right sides of the body frame constituting the cabinet rack body, and the upper and lower ends of the mount frame are In the cabinet rack connected to the main body frame, when the main body frame vibrates through vibration absorbing means at the connecting portion between the mount frame and the main body frame, the vibration of the mount frame is smaller than the vibration. It was made to become.
According to the present invention, since the mount frame is isolated from the main body frame, the vibration of the stored items can be reduced with a simple structure as compared with the case where the entire main body frame is made into an isolation structure. Further, even if the upper part of the cabinet rack is fixed to a structure such as a wall surface of the room, the seismic isolation function does not deteriorate, so that the cabinet rack body can be prevented from falling while maintaining the seismic isolation function.

According to a second aspect of the present invention, in the cabinet rack according to the first aspect, the vibration absorbing means has an elastic body that expands and contracts in the lateral direction, and absorbs vibration of the main body frame by expansion and contraction of the elastic body. To do.
According to the present invention, the lateral vibration can be reliably damped, and the lateral vibration of the contents can be reduced with respect to the vibration of the main body frame.

  Thus, since the mount frame for assembling the device or attaching the shelf is isolated from the main body frame, the vibration of the stored items can be reduced with a simple structure as compared with the case where the entire main body frame is made an isolation structure. Moreover, even if the cabinet rack is fixed to the wall surface of the room, the seismic isolation function works well, so that the cabinet rack body can be prevented from falling while maintaining the seismic isolation function.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, embodiments of the invention will be described in detail with reference to the drawings. FIG. 1 shows a perspective view of a main part of a cabinet rack for storing electronic equipment as an example of a cabinet rack according to the present invention, and shows a state in which closing members such as side plates, top plates and doors are removed and a main body frame is exposed. . In FIG. 1, 1 is a top frame, 2 is a ground frame, 3 is a support | pillar, and the main body frame 4 is comprised from these. Reference numeral 5 denotes a mount frame used when directly mounting a rack mount type electronic device or assembling a shelf on which the electronic device is placed, and these are formed by bending a steel plate. The top frame 1 and the ground frame 2 are quadrangular frames, and the four corners of both are connected via a rod-shaped support column 3, and the main body frame 4 has a robust structure. The mount frame 5 is formed in a rod shape, and the lower end is connected to the ground frame 2 and the upper end is connected to the top frame 1 and attached to the main body frame 5.

FIG. 2 is an enlarged explanatory view of a portion A of FIG. 1 which is a connecting portion between the ground frame 2 and the mount frame 5, and as shown in the figure, the lower vibration is absorbed between the ground frame 2 and the mount frame 5. Means 6 are interposed. This lower vibration absorbing means is configured as shown in FIG. 3, in which FIG. 3 (a) is an external view and FIG. 3 (b) is an exploded view. In FIG. 3, 7 is a ground frame coupling member coupled to the ground frame 2, 8 is a mount frame coupling member coupled to the mount frame 5, and 9 is a leaf spring. The ground frame connecting member 7 has a back plate 7a and a bottom plate 7b, is formed in a substantially L shape, and is provided with side pieces 7c and 7c from the back plate 7a to the bottom plate 7b. The receiving space for the leaf spring 9 and the guide path for the mount frame connecting member 8 are formed by the piece 7c.
Further, on the left and right sides of the bottom plate 7b, connecting pieces 7d with bolt insertion holes 7e through which bolts 10 (shown in FIG. 2) for connecting to the ground frame 2 are inserted project, and the back plate 7a has a plate. An insertion hole 7f for screws 11 and 11 for connecting the springs 9 and 9 is formed.

The mount frame connecting member 8 has an engaging piece 8 a that engages with the plate spring 9, a sliding piece 8 b that slides on the bottom plate 7 b of the ground frame connecting member 7, and mounting pieces 8 c and 8 c that mount the mount frame 5. The mounting piece 8c is formed with an insertion hole 8d through which a screw 12 for connecting the mount frame 5 is inserted. The plate spring 9 is formed by bending a spring steel plate into a substantially M shape, one end is connected to the ground frame connecting member 7, and the other end is engaged to the mount frame connecting member 8.
In this way, the leaf spring 9 is disposed in a state of being sandwiched between the ground frame connecting member 7 and the mount frame connecting member 8, and the mount frame connecting member 8 is disposed in the guide path formed in the ground frame connecting member 7. Thus, the leaf spring 9 is slidable in the direction of the arrow shown in FIG.

4 is an enlarged explanatory view of a portion B of FIG. 1 which is a connecting portion between the top frame 1 and the mount frame 5. As shown in the drawing, the upper vibration absorbing means 14 is provided between the top frame 1 and the mount frame 5. As shown in FIG. Intervened. In FIG. 4, the top frame 1 is omitted.
The upper vibration absorbing means 14 has a top frame connecting piece 16 disposed at one end of a plate spring 15 formed by bending a spring steel plate into a substantially Z shape, and a mount frame connecting piece 17 disposed at the other end. It is connected to the leaf spring 15 with a screw (not shown). Further, the connection between the top frame connecting piece 16 and the top frame 1 and the connection between the mount frame connecting piece 17 and the mount frame 5 are similarly screwed and connected. Thus, the upper part of the mount frame can be moved slightly to the left and right by the expansion and contraction of the leaf spring 15.
2 to 4 show one connecting portion of the pair of mount frames 5 and 5 arranged on the left and right sides, and the other mount frame 5 is also connected to the ground frame 2 and the top frame 1 in the same configuration. Are formed symmetrically.

As described above, the mount frame is slightly movable in the left-right direction with respect to the main body frame by connecting the lower and upper portions of the mount frame to the main body frame of the cabinet rack via the vibration absorbing means. Therefore, the vibration of the cabinet rack body is not directly transmitted to the mount frame. Especially, the left and right mount frames are mounted on the left and right mount frames by installing electronic devices between the left and right mount frames, or by mounting the shelves to store the electronic devices. It is difficult to vibrate due to the weight of both, and both vibration absorbing means effectively absorb vibration. In this way, the vibration absorbing means exhibits the seismic isolation function, and the vibration of the mounted equipment can be reduced. In particular, it is possible to reliably attenuate the lateral vibration, and to reduce the lateral vibration of the accommodation device relative to the vibration of the cabinet rack body.
In addition, by adopting such a configuration, it is possible to reduce the vibration of the accommodation equipment with a simple structure as compared with the seismic isolation structure of the main body frame, and the upper part of the cabinet rack main body is used as a structure such as a wall surface of the room. Since the seismic isolation function does not deteriorate even if it is fixed, the cabinet rack body can be prevented from falling while maintaining the seismic isolation function.

In the above embodiment, the vibration is absorbed using the leaf springs 9 and 15 as the elastic body. However, it is possible to absorb the vibration using another elastic body. A coil spring or a rubber piece can also be used. Further, although the leaf spring is provided so as to absorb the vibration in the left-right direction, it may be provided so as to absorb the vibration in the front-rear direction, and can be easily changed. Moreover, it is also possible to absorb vibration in both the front and rear and left and right directions by configuring the vibration absorbing means in a double manner.
Furthermore, although the cabinet rack for storing electronic equipment has been described, the above structure can be easily applied to a cabinet for storing valuables that are lighter and easier to break than electronic equipment. In this case, if a heavy article is accommodated in the shelf installed between the mount frames, the vibration absorbing means can effectively absorb vibration even if the article to be stored is lightweight.

The example of embodiment of this invention is shown and the perspective view of the main body frame of the cabinet rack which removed the door, the side plate, etc. is shown. It is the A section enlarged explanatory view of FIG. The vibration absorption means of A part is shown, (a) is a perspective view, (b) has shown the disassembled state. It is the B section enlarged explanatory view of FIG.

Explanation of symbols

  1 .... top frame 2 .... ground frame 3 .... post 4. main frame 5 ... mounting frame 6 ... lower vibration absorbing means 9 ... leaf spring as elastic body 14 ... Upper vibration absorbing means, 15 .. Leaf spring as an elastic body.

Claims (2)

In the cabinet rack formed by arranging at least a pair of mount frames for accommodating devices on the left and right of the main body frame constituting the cabinet rack main body, and the upper and lower ends of the mount frame being connected to the main body frame,
A cabinet rack characterized in that when the main body frame vibrates, vibrations of the mount frame become smaller than the vibration when the main body frame vibrates through a coupling portion between the mount frame and the main body frame. . The cabinet rack according to claim 1, wherein the vibration absorbing means has an elastic body that expands and contracts in the lateral direction, and absorbs vibration of the main body frame by expansion and contraction of the elastic body.

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