JP4106809B2 - Data recording / reproducing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data recording / reproducing apparatus used for broadcasting station AV equipment (hereinafter referred to as a video server) or the like that records and reproduces video / audio using a plurality of randomly accessible hard disk drives.
[0002]
[Prior art]
In recent years, a system using a hard disk (RAID) has also appeared in video servers. RAID is equipped with a plurality of hard disk drive units (hereinafter referred to as HDD units) in one set to achieve a large capacity and a high transfer rate. Also, by generating parity data, even if one HDD unit fails, the data can be restored. That is, even if a problem occurs in one HDD unit, the HDD unit can be replaced and data can be restored without stopping the system. However, this requires that the HDD unit can be easily replaced (hot swapped) during system operation. In addition, since the HDD unit is very vulnerable to vibration and shock, it is necessary to be careful not to give vibration or shock to other HDD units when replacing the HDD unit.
[0003]
In the above video server, as a method of fixing the HDD unit in a hard disk drive unit storage section (hereinafter referred to as HDD unit storage section) provided in the cabinet, a method of fixing with a screw, a method of using power from a motor, etc., a lock lever is used. How to do is known.
[0004]
[Problems to be solved by the invention]
By the way, the method of fixing the HDD unit in the HDD unit housing portion using the above-mentioned screws is very poor in workability, and it is easy to give vibration or impact to the HDD unit during system operation by screw tightening work. is there.
[0005]
In addition, the fixing method using power such as a motor has a problem that it is costly and is subject to space restrictions.
[0006]
In addition, the method using the lock lever is due to the property that the HDD unit is inserted into the HDD unit housing portion and the HDD unit is pressed and fixed to a stopper provided at the lower end of the HDD unit housing portion. Due to the property that one end and the other end in the insertion direction of the HDD unit are inserted between the stopper and the lock lever, the HDD unit is fixed in the insertion / removal direction, that is, the movement in the insertion / removal direction side is prevented. Although the regulation can be performed with certainty, the regulation of the movement in the direction perpendicular to the insertion / extraction direction is uncertain, and a minute displacement such as a self-vibration of the HDD unit cannot be suppressed. There was a problem that it could not withstand strong vibrations and shocks like time.
[0007]
According to the present invention, in the fixing method using the lock lever, the HDD unit can be securely fixed not only in the insertion direction but also in a direction orthogonal to the insertion direction.
[0008]
[Means for Solving the Problems]
According to the present invention, an HDD unit is inserted into an HDD unit housing portion provided in a cabinet, and the HDD unit is locked by pressing it in a inserting direction against a first stopper portion provided at a lower end portion of the HDD unit housing portion with a lock lever. In the data recording / reproducing apparatus configured as described above,
The HDD unit storage portion is provided with a second stopper portion substantially parallel to the HDD unit insertion direction,
When the HDD unit is inserted into the HDD unit housing portion, the HDD comes into contact with a surface parallel to the unit insertion direction of the second stopper portion with a predetermined pressure, and the HDD is orthogonal to the insertion direction. A stopper contact part is provided to restrict movement in the direction.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The data recording / reproducing apparatus of the present invention will be described in the following order taking a video server as an example. (1) ... Schematic structure of the entire video server, (2) ... structure of the HDD unit housing section, (3) ... structure of the HDD unit, (4) ... structure of the lock lever, (5) ... action and effect of the embodiment (6) Other embodiments.
[0010]
(1) Schematic structure of entire video server As shown in FIG. 1, the video server 1 includes an HDD rack 3 in a cabinet 2.
[0011]
The HDD rack 3 is provided with a plurality of HDD unit storage units 101, and the HDD units 201 are inserted into the HDD unit storage units 101 from above.
[0012]
The HDD unit 201 inserted into the HDD unit storage unit 101 is locked by the lock lever 301 and pressed against the first stopper unit 106 (see FIG. 3) provided at the lower end of the HDD unit storage unit 101. The HDD unit storage unit 101 is fixed.
[0013]
An I / F (Inter / Face) storage unit 4 is provided at a position adjacent to the HDD rack 3, and interface boards 5... 5 are attached to the I / F storage unit 4.
[0014]
An MB (Main Board) storage unit 6 is provided at a position adjacent to the I / F storage unit 4, and the HDD unit 201 is connected to the MB storage unit 6 via the interface boards 5. ... main boards 7 ... 7 for controlling 201 are attached.
[0015]
An I / F motherboard 8 is attached to the bottom of the HDD rack 3 and the bottom of the I / F storage 4.
[0016]
An MB motherboard 9 is attached to the bottom of the MB storage 6.
[0017]
A power supply unit 10 is provided on one side of the MB storage unit 6. A front panel 13 having various operation dials 11... 11 and a liquid crystal display unit 12 is disposed on the front side of the cabinet 2 and a plurality of fans 14. A cooling device 15 is arranged.
[0018]
(2) Structure of HDD Unit Storage Unit As shown in FIGS. 2 to 3, the HDD unit storage units 101... 101 are provided in the HDD rack 3 in a continuously arranged state.
[0019]
Each HDD unit housing portion 101 is configured such that the HDD unit 201 is inserted between the pair of left and right metal side plates 103 and 104 from the upper opening 102.
[0020]
A substantially U-shaped lever engaging portion 105 with which the lock lever 301 is engaged is provided at the upper ends of the pair of side plates 103 and 104.
[0021]
Further, a first stopper portion 106 with which the lower end of the inserted HDD unit 201 abuts is integrally formed at the lower ends of the pair of side plates 103 and 104.
[0022]
Further, the pair of side plates 103 and 104 is provided with a second stopper portion 107 for restricting the movement of the inserted HDD unit 201 in the direction orthogonal to the insertion direction.
[0023]
The second stopper portion 107 includes first to fourth elastic pieces 108 to 111 positioned at the four corners on one side surface of the HDD unit 201 that has been inserted.
[0024]
The first to fourth elastic pieces 108 to 111 are formed integrally with the side plate by bending one side portion of the pair of side plates 103 and 104 at a substantially right angle, and the HDD unit 201 into which the HDD unit 201 has been inserted is formed. It is parallel to this at an appropriate interval with respect to one side surface.
[0025]
Among the first to fourth elastic pieces 108 to 111, the first and second elastic pieces 108 and 109 facing at the upper end side, that is, the corner portion on the opening 102 side, are the third and third opposing pieces at the lower end side. Displaced to the outer side (side plate side) than the fourth elastic pieces 110 and 111 are provided. (The interval D1 between the first and second elastic pieces 108 and 109 is set larger than the interval D2 between the third and fourth elastic pieces 110 and 111).
[0026]
Of the first to fourth elastic pieces 108 to 111, the second and fourth elastic pieces 109 and 111 provided on the side plate 104 side have a bowl shape of the HDD unit 201 described below. A slit 112 into which the hook piece is press-fitted is provided.
[0027]
The opening of the slit 112 has a tapered surface 113 so that the hook piece of the HDD unit 201 can be easily introduced.
[0028]
An insertion guide member 114 made of synthetic resin is provided on the inner side surfaces of the pair of metal side plates 103 and 104.
[0029]
A rail-like recess 115 extending in the vertical direction is provided on the inner surface of the insertion guide member 114, and rail-like protrusions provided on both side surfaces of the HDD unit 201 to be described below are provided in the rail-like recess 115. By fitting 216, the insertion of the HDD unit 201 is guided.
[0030]
In addition, an SCA (squeeze) connector 121 that engages with the connector of the HDD unit 201 is disposed below the HDD housing portion 101. The SCA connector 121 is attached to the substrate 122 and is attached to the support plate 124 in a floating state by a stepped screw 123.
[0031]
(3) Structure of HDD unit As shown in FIG. 4, the HDD unit 201 includes an HDD main body 202 and an outer periphery of the HDD main body 202 by screws 203... 203 so as to surround the HDD main body 202. It consists of a metal case (hereinafter referred to as caddy) 204 called a caddy attached.
[0032]
At the center of the upper end of the caddy 204, a handle 205 for insertion / extraction is provided, and lock levers 301 and 301, which will be described in detail later, are arranged on both sides of the handle 205.
[0033]
One side surface 204a of the caddy 204 contacts the second stopper portion 107 with a predetermined pressure when inserted into the HDD unit storage unit 101, and the HDD unit 201 moves in a direction perpendicular to the insertion direction. A stopper contact portion 211 that restricts the above is provided.
[0034]
The stopper contact portion 211 is located at the four corners of one side surface 204a of the caddy 204 and at positions corresponding to the first to fourth elastic pieces 108 to 111 of the HDD unit storage unit 101 with respect to the one side surface 204a. The first to fourth hook pieces 212 to 215 having a hook shape are provided substantially vertically.
[0035]
The first to fourth hook pieces 212 to 215 are formed integrally with the caddy 204 by cutting a part of one side surface 204 a of the caddy 204. Further, rail-like convex portions 216 are cut and formed on both side surfaces of the caddy 204.
[0036]
When the rail-like convex portion 216 is fitted into the concave portion 115 of the insertion guide member 114 on the HDD unit storage portion 101 side and the HDD unit 201 is inserted into the HDD unit storage portion 101, two points are shown in FIG. As indicated by the chain line, the first to fourth flat plate-like elastic pieces 108 provided in the HDD unit housing portion 101 on the tapered surface 217 provided at the tip portions of the first to fourth hook pieces 212 to 215. The end portions of the first to fourth flat plate-shaped elastic pieces 108 to 111 are pressed into the recesses 218 of the first to fourth hook pieces 212 to 215 while being bent, The HDD unit 201 is restricted from moving in the XX direction (the left-right direction in FIG. 1).
[0037]
Further, when the base portions of the second and fourth hook pieces 213 and 215 are press-fitted into the slits 112 provided in the second and fourth flat plate-like elastic pieces 109 and 111, the HDD unit 201. Is restricted from moving in the YY direction (front-rear direction in FIG. 1).
[0038]
When the first to fourth flat elastic pieces 108 to 111 are press-fitted into the recesses 218 of the first to fourth hook pieces 212 to 215, the first to fourth flat plate-like elastic pieces 108 to 111 are pressed. In order to allow the elastic pieces 108 to 111 to bend, as shown in FIG. 5, there is a gap between the first to fourth flat plate-like elastic pieces 108 to 111 and the outer surface of the HDD unit 201. An appropriate gap δ (around 0.5 mm) is set.
[0039]
(4) Structure of Lock Lever As shown in FIG. 6, the lock lever 301 includes a first rotation lever 311 and a second rotation lever 321.
[0040]
The first rotation lever 311 is attached to the caddy 204 so as to be rotatable by a shaft 312.
[0041]
The first rotation lever 311 has first to third protrusions 313 to 315 centering on the shaft 312.
[0042]
The first protrusion 313 is used as a lever for manual operation, and the second and third protrusions 314 and 315 are cams that engage with the second rotating lever 311. It has come to be used as
[0043]
When the first rotation lever 321 is rotated in the unlocking direction, one side portion of the first protrusion 313 is one side of the handle portion 205 for insertion / extraction provided at the center of the upper end of the caddy 204. Further rotation is prevented by contacting the part.
[0044]
The second rotation lever 321 is attached to the caddy 204 so as to be rotatable by a shaft 322.
[0045]
The second rotating lever 321 has fourth to eighth protrusions 323 to 328 substantially radially about the shaft 322.
[0046]
In a state where the second protrusion 314 of the first rotating lever 311 is engaged between the fourth and fifth protrusions 323 and 324, the sixth protrusion 325 is outside the caddy 204. The seventh protrusion 326 protrudes from the outer surface of the caddy 204 while being substantially flush with the side surface (not projecting from the outer surface). In the state where the second protrusion 314 is engaged between the fourth and fifth protrusions 323 and 324, the first protrusion 313 is inserted and removed from the first rotating lever 311. It is in a state of being pressed against one side surface of the handle 205 for use.
[0047]
(5) Operation and effect of the embodiment When the HDD unit 201 is inserted into the HDD unit storage unit 101 in the unlocked state shown in FIGS. 6 to 7, as shown in FIG. The protrusion 326 comes into contact with the lever engaging portion 105 provided in the HDD housing portion 101, and further insertion is prevented.
[0048]
In the state of FIG. 8, the first to fourth hook pieces 212 to 215 provided in the HDD unit 201 and the first to fourth flat plate-like elastic pieces 108 to 209 provided in the HDD unit storage unit 101. 111 is kept in a non-contact state (the second and fourth hook pieces 213 and 215 seem to be in contact with the second and fourth flat plate-like elastic pieces 109 and 111, In the second and fourth flat elastic pieces 109 and 111, the slit 112 is only located in the recess 218 of the second and fourth hook pieces 213 and 215, and they are in contact with each other. Absent). Further, the HDD unit 201 and the first stopper portion 106 provided in the HDD unit storage unit 101 are kept in a non-contact state, and the connector 221 of the HDD unit and the SCA connector 121 are also kept in a non-engaged state. .
[0049]
Next, when the first rotation lever 311 is rotated in the locking direction (arrow direction) by operating the first protrusion 313, the second, third protrusions 314, 315 and the fourth, fifth, The second rotation lever 321 rotates in the opposite direction to the first rotation lever 311 through the protrusions 323 and 324, and the sixth protrusion 325 protrudes from the outer surface of the caddy 204. At the same time, the seventh protrusion 326 moves in a direction to escape from the lever engaging portion 105.
[0050]
The sixth protrusion 325 contacts the inner surface of the lever engaging portion 105. In this state, when the first rotating lever 311 is further rotated in the locking direction, the HDD unit 201 is inserted into the HDD unit housing portion 101 by the reaction force, and as shown in FIG. The lower end of the unit 201 is pressed against the first stopper portion 106 so that the HDD unit connector 221 and the SCA connector 121 are engaged with each other, and the first to fourth hook pieces 212 to 215 are connected to the HDD unit housing portion. The HDD unit 201 is brought into pressure contact with the first to fourth flat-plate-like elastic pieces 108 to 111 provided on the 101, and the first to fourth flat-plate-like elastic pieces 108 to 111 are slightly bent. Are fixed in directions orthogonal to the insertion direction (front-rear direction and left-right direction in FIG. 1).
[0051]
When the first turning lever 311 is turned to the maximum in the locking direction, the top of the third protrusion 315 of the first turning lever 311 gets over the fourth protrusion 323, and the Return protrusion (rotation in the unlocking direction) is prevented by the four protrusions 323, and the first rotation lever 311 is in a self-locked state. Therefore, the HDD unit 201 is sandwiched between the lock lever 301 and the first stopper portion 106 and is restricted from moving in the insertion / removal direction (vertical direction in FIG. 1). Note that the operation of removing the HDD unit 201 from the HDD storage unit 101 is performed through a procedure almost reverse to the operation of inserting the HDD unit 201 into the HDD storage unit 101.
[0052]
(5) Other embodiments In the embodiment shown in the drawings, the second stopper portion 107 is constituted by first to fourth flat plate-like elastic pieces 108 to 111, and these elastic pieces 108 to 111 are connected to the HDD unit storage portion. 101 is arranged at the four corners of one side surface, but the number of flat elastic pieces constituting the second stopper portion 107 is not limited to four and can be increased or decreased as appropriate.
[0053]
In the embodiments, the video server has been described as an example. However, the present invention is not limited to the video server, but the present invention is applied to broadcasting station AV equipment and other data recording / reproducing apparatuses that use a wide variety of HDDs. .
[0054]
【The invention's effect】
The data recording / reproducing apparatus of the present invention has the following effects.
(1) According to the first aspect of the present invention, the HDD unit inserted into the HDD unit housing portion of the cabinet can be fixed not only in the insertion direction but also in the direction orthogonal to the insertion direction, so that vibrations such as in-vehicle and package transportation can be prevented. In contrast, the HDD unit can be sufficiently protected and its quality can be guaranteed. Also, screwing work is not required, and the HDD unit can be easily attached to and detached from the HDD unit housing portion of the cabinet. In addition, it is possible to suppress the occurrence of vibrations and shocks during the attaching / detaching operation, and therefore it is possible to quickly and reliably replace the HDD unit (hot swap) during system operation. In addition, the structure for fixing the HDD drive in the HDD unit housing portion is simple, and it is possible to cope with a small space and a small size.
(2) In the invention of claim 2, the upper surface of the flat elastic piece provided in the HDD unit housing portion substantially parallel to the HDD unit insertion direction is pressed by the hook piece provided on the HDD unit, and the reaction force of the elastic piece is The HDD unit can be securely locked in the direction orthogonal to the insertion direction.
(3) In the invention of claim 3, the HDD unit can be fixed not only in the vertical direction and the horizontal direction but also in the front-rear direction by fitting the hook piece into a slit provided in the flat elastic piece.
(4) Since the invention of claim 4 presses the four corners of the HDD unit, the locking of the HDD unit is ensured. In addition, the pair of flat elastic pieces facing each other on the opening side of the HDD unit storage portion are provided to be displaced outwardly from the pair of flat elastic pieces facing each other on the lower end side of the opening portion. Since the hook pieces are also provided corresponding to the positions of the elastic pieces, when the HDD unit is inserted into the HDD unit storage portion, the pair of hook pieces provided on the lower end side of the HDD unit is connected to the HDD unit storage portion. It passes between a pair of flat elastic pieces provided on the opening side and engages with a pair of flat elastic pieces provided on the lower end side.
[Brief description of the drawings]
FIG. 1 is a perspective view of a video server.
FIG. 2 is a plan view of an HDD unit storage unit.
FIG. 3 is a front view of an HDD unit storage unit.
FIG. 4 is a perspective view of an HDD unit.
FIG. 5 is a plan view showing a state in which an HDD unit is stored.
FIG. 6 is a front view of the locking means.
FIG. 7 is an explanatory diagram showing the operation.
FIG. 8 is an explanatory diagram showing the operation.
FIG. 9 is an explanatory diagram showing the operation.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Video server (data recording / reproducing apparatus), 2 ... Cabinet, 101 ... HDD unit accommodating part, 106 ... 1st stopper part, 107 ... 2nd stopper part, 108-111 ... 1st-4th elastic piece , 112 ... slit, 201 ... HDD unit, 211 ... stopper contact portion, 212 to 215 ... first to fourth hook pieces, 301 ... lock lever.

Claims (4)

A hard disk drive unit is inserted into a hard disk drive unit storage section provided in the cabinet, and the hard disk drive unit is locked with a lock lever by pressing it against the first stopper section provided in the hard disk drive unit storage section in the insertion direction. In the data recording / reproducing apparatus,
The hard disk drive unit storage portion is provided with a second stopper portion substantially parallel to the insertion direction,
When the hard disk drive unit is inserted into the hard disk drive unit housing portion, the hard disk drive unit is brought into contact with a surface parallel to the insertion direction of the second stopper portion with a predetermined pressure and is orthogonal to the insertion direction of the hard disk drive unit. A data recording / reproducing apparatus comprising a stopper contact portion for restricting movement in a direction. In claim 1,
The second stopper portion is formed by providing a metal plate-like elastic piece substantially parallel to the one side surface at a position facing one side surface of the hard disk drive unit inserted into the hard disk drive unit housing portion,
The stopper contact portion is formed on one side surface of the hard disk drive unit by standing a hook-shaped hook piece substantially perpendicular to the one side surface,
When the hard disk drive unit is inserted into the hard disk drive unit housing portion, the flat elastic piece provided in the hard disk drive unit housing portion enters into the recesses of the hook pieces provided in the hard disk drive unit and continues to the upper ends of these recessed portions. A data recording / reproducing apparatus characterized in that a movement of the hard disk drive unit is restricted by pressing an upper surface of the elastic piece with a convex portion. In claim 2,
The flat elastic piece constituting the second stopper portion includes a slit into which a base portion of the hook piece is press-fitted when the hard disk drive unit is inserted into the hard disk drive unit housing portion. A data recording / reproducing apparatus. In claim 2,
The plate-like elastic piece constituting the second stopper portion is formed at a position facing four corners on one side of the hard disk drive unit inserted into the hard disk drive storage portion, and the unit of the hard disk drive unit storage portion The pair of flat elastic pieces facing each other at the corner on the insertion opening side is provided to be displaced outwardly from the other pair of flat elastic pieces facing the unit insertion opening on the side opposite to the unit insertion opening. As well as
The hook pieces constituting the stopper contact portion are formed at the four corners on one side of the hard disk drive unit at positions facing the four flat elastic pieces constituting the second stopper portion. A data recording / reproducing apparatus.

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