CN108255257A - Casing of servomechanism and servomechanism - Google Patents
Casing of servomechanism and servomechanism Download PDFInfo
- Publication number
- CN108255257A CN108255257A CN201611246129.6A CN201611246129A CN108255257A CN 108255257 A CN108255257 A CN 108255257A CN 201611246129 A CN201611246129 A CN 201611246129A CN 108255257 A CN108255257 A CN 108255257A
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- CN
- China
- Prior art keywords
- partition board
- hard disk
- pivot
- servomechanism
- motherboard
- Prior art date
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/18—Packaging or power distribution
- G06F1/181—Enclosures
Abstract
The present invention discloses a kind of casing of servomechanism, and for casing of servomechanism to accommodate a motherboard and a hard disk, casing of servomechanism includes partition board, a hard disk rack and a upper cover in a lower casing, one.Lower casing includes a bottom plate and is connected to the opposite sides plate of bottom plate, and wherein motherboard is positioned over bottom plate.Middle partition board and bottom plate are at a distance, and including opposite one first side and one second side, wherein the first side is articulated in both side plate, the second side is detachably secured to both side plate, and partition board is selectively overturn by axle center of the first side in causing.Hard disk rack is positioned on middle partition board and carries hard disk.Upper cover is detachably arranged in lower casing.The present invention also provides a kind of servomechanisms.
Description
Technical field
The present invention relates to a kind of casing of servomechanism and servomechanism, and more particularly to a kind of servo for being convenient for changing internal element
Device casing and servomechanism.
Background technology
In general, its internal element of servomechanism is numerous, such as motherboard, the central processing that is installed on motherboard
Hard disk that device, memory group, connector, hard disk rack are installed in hard disk rack, the connecting line for being connected to motherboard and hard disk etc..It is logical
Often, to repair servomechanism or internal element is replaced, needs to disassemble the screw on casing by tool, in dismounting quite not
It is convenient.
Invention content
The present invention provides a kind of casing of servomechanism, can just replace internal element, using upper quite convenient.
The present invention provides a kind of servomechanism, including above-mentioned casing of servomechanism.
A kind of casing of servomechanism of the present invention, to accommodate a motherboard and a hard disk, casing of servomechanism includes machine
Partition board, a hard disk rack and a upper cover in shell, one.Lower casing includes a bottom plate and is connected to the opposite sides plate of bottom plate, wherein main
Machine plate is positioned over bottom plate.Middle partition board and bottom plate are at a distance, and including opposite one first side and one second side, wherein
First side is articulated in both side plate, and the second side is detachably secured to both side plate, and partition board is selectively with first in causing
Side is overturn for axle center.Hard disk rack is positioned on middle partition board and carries hard disk.Upper cover is detachably arranged in lower casing.
In one embodiment of this invention, the first side of above-mentioned middle partition board includes telescopic two first pivot, the
Two sides include telescopic two second pivot, and each side plate includes two pivot hole corresponding to the first pivot and the second pivot, and two
First pivot is exited respectively in these corresponding pivot hole, and partition board is selectively overturn by axle center of the second side in causing.
In one embodiment of this invention, above-mentioned middle partition board is included close to a first part of bottom plate and far from bottom plate
One second part, casing of servomechanism accommodate the connecting line for being connected to motherboard and hard disk, and connecting line is placed on first part simultaneously
It is moved along the wall surface for being connected to first part and second part, and hard disk rack is born in second part.
In one embodiment of this invention, which includes two third pivots, and the both side plate includes being depressed in side
Edge and two shrinkage pools for corresponding to the two thirds pivot;Alternatively, the both side plate includes two third pivots, and the hard disk rack includes
It is depressed in edge and corresponding to two shrinkage pools of the two thirds pivot;Wherein, hard disk rack passes through two third pivots and two shrinkage pools
Coordinate and pivoted relative to both side plate or both side plate is located away from two shrinkage pools by the removal of two third pivots.
In one embodiment of this invention, above-mentioned hard disk rack includes protruding from both sides and contacts the multiple convex of both side plate
It rises, and hard disk rack is moved along the track that both side plate is collectively formed with middle partition.
A kind of servomechanism of the present invention, including a casing of servomechanism, a motherboard and a hard disk.Casing of servomechanism includes one
Partition board, a hard disk rack and a upper cover in lower casing, one.Lower casing includes a bottom plate and is connected to the opposite sides plate of bottom plate.In
Partition board is at a distance with bottom plate, and including opposite one first side and one second side, wherein the first side is articulated in two
Side plate, the second side is detachably secured to both side plate, and partition board is selectively overturn by axle center of the first side in causing.Firmly
Plate rail is positioned on middle partition board.Upper cover is detachably arranged in lower casing.Motherboard is positioned over bottom plate.Hard disk is positioned over hard disk rack
And it is electrically connected at motherboard.
In one embodiment of this invention, the first side of above-mentioned middle partition board includes telescopic two first pivot, the
Two sides include telescopic two second pivot, and each side plate includes two pivot hole corresponding to the first pivot and the second pivot, and two
First pivot is exited respectively in these corresponding pivot hole, and partition board is selectively overturn by axle center of the second side in causing.
In one embodiment of this invention, the first side of above-mentioned middle partition board to the orthographic projection position of bottom plate in motherboard pair
Except the orthographic projection of bottom plate, and after partition board is overturn using the first side as axle center in causing, entire motherboard is exposed, and middle partition board
The second side to the orthographic projection position of bottom plate within orthographic projection of the motherboard to bottom plate, and cause in partition board using the second side as
After the overturning of axle center, one first area of motherboard is exposed, and the middle partition board that one second area of motherboard is reversed covers.
In one embodiment of this invention, above-mentioned servomechanism further includes a connecting line, is connected to motherboard and hard disk, and
A part for connecting line is located on middle partition board, and wherein the firstth area of motherboard includes dismountable central processing unit or memory,
And second area include a connector for being connect with connecting line.
In one embodiment of this invention, which includes two third pivots, and the both side plate includes being depressed in side
Edge and two shrinkage pools for corresponding to the two thirds pivot;Alternatively, the both side plate includes two third pivots, and the hard disk rack includes
It is depressed in edge and corresponding to two shrinkage pools of the two thirds pivot;Wherein, hard disk rack passes through two third pivots and two shrinkage pools
Coordinate and pivoted relative to both side plate or both side plate is located away from two shrinkage pools by the removal of two third pivots.
Based on above-mentioned, in the servomechanism of the present invention, motherboard is placed on the bottom plate of casing of servomechanism, middle partition board configuration
Both side plate is articulated in the first side of the top of motherboard, and middle partition board, the second side is detachably secured to both side plate, firmly
Plate rail is positioned on middle partition board.When to repair the motherboard on bottom plate, as long as hard disk rack is picked up, and partition board in releasing
The second side and both side plate stationary state, middle partition board can the first side be axle center overturning, and expose motherboard, with side
Just user repairs the element on motherboard or replaces motherboard.In addition, the first side of middle partition board can include it is scalable
Two first pivots, the second side can include telescopic two second pivot, and cause in partition board also may be selected with the second side
Portion is overturn for axle center.In one embodiment, the first side of middle partition board to the orthographic projection position of bottom plate motherboard to bottom plate just
Except projection, and after partition board is overturn using the first side as axle center in causing, entire motherboard is exposed, and replaceable entire host
Plate, and the second side of middle partition board to the orthographic projection position of bottom plate within orthographic projection of the motherboard to bottom plate, and cause in partition board
After being overturn using the second side as axle center, the motherboard of only part is exposed, and what the part of e.g. connector was still reversed
Middle partition board masking, in this way, can then be replaced on motherboard under the situation for not needing to pull out the connecting line between hard disk and motherboard
Element, and provide the selection in a variety of dismountings.
To make the foregoing features and advantages of the present invention clearer and more comprehensible, special embodiment below, and coordinate specification attached
Figure is described in detail below.
Description of the drawings
Fig. 1 is the schematic diagram that a kind of upper cover of the casing of servomechanism of servomechanism according to one embodiment of the invention is removed.
Fig. 2 is the schematic diagram of the hard disk rack for the servomechanism for removing Fig. 1.
Fig. 3 and Fig. 4 is the schematic diagram at a variety of visual angles of the hard disk rack overturning of the servomechanism of Fig. 1 respectively.
Fig. 5 is the schematic diagram that the middle partition of the servomechanism of Fig. 1 is overturn using the first side as axle center.
Fig. 6 is the enlarged diagram of the a-quadrant of Fig. 5.
Fig. 7 is the enlarged diagram of the B area of Fig. 5.
Fig. 8 is the enlarged diagram in the C regions of Fig. 5.
Fig. 9 is the schematic diagram of the hard disk rack for the servomechanism for removing Fig. 1.
Figure 10 is the schematic diagram that the middle partition of the servomechanism of Fig. 1 is overturn using the second side as axle center.
Wherein, the reference numerals are as follows:
10:Servomechanism
20:Motherboard
22:Firstth area
23:Central processing unit
24:Memory
25:Secondth area
26:Connector
30:Hard disk pallet
40:Connecting line
100:Casing of servomechanism
110:Lower casing
112:Bottom plate
114:Side plate
116:Third pivot
118:Pivot hole
120:Middle partition board
122:First side
123:First pivot
124:Second side
125:Second pivot
126:First part
127:Second part
130:Hard disk rack
132:Shrinkage pool
134:Protrusion
136:First connector
138:Second connector
140:Upper cover
Specific embodiment
Fig. 1 is the schematic diagram that a kind of upper cover of the casing of servomechanism of servomechanism according to one embodiment of the invention is removed.
Fig. 2 is the schematic diagram of the hard disk rack for the servomechanism for removing Fig. 1.Fig. 3 and Fig. 4 is that the hard disk rack of the servomechanism of Fig. 1 is overturn respectively
The schematic diagram at a variety of visual angles.Fig. 5 is the schematic diagram that the middle partition of the servomechanism of Fig. 1 is overturn using the first side as axle center.Fig. 6 is figure
The enlarged diagram of 5 a-quadrant.Fig. 7 is the enlarged diagram of the B area of Fig. 5.Fig. 8 is the enlarged diagram in the C regions of Fig. 5.
Fig. 9 is the schematic diagram of the hard disk rack for the servomechanism for removing Fig. 1.Figure 10 is the middle partition of the servomechanism of Fig. 1 using the second side as axis
The schematic diagram of heart overturning.It should be noted that in order to clearly show that the structure in casing of servomechanism 100, only in Fig. 1 schematically
The upper cover 140 of casing of servomechanism 100 is painted, and in other figs. hides upper cover 140.
It please refers to Fig.1 to Figure 10, the servomechanism 10 of the present embodiment includes a casing of servomechanism 100,20 (mark of a motherboard
In Fig. 3), an at least hard disk (not being painted, represented with the hard disk pallet 30 of Fixed disk) and be connected to motherboard 20 and hard disk
An at least connecting line 40 (being shown in Fig. 9).As shown in figure 3, casing of servomechanism 100 include a lower casing 110, one in partition board 120,
One hard disk rack 130 and upper cover 140 (being shown in Fig. 1).Lower casing 110 includes a bottom plate 112 and is connected to opposite the two of bottom plate 112
Side plate 114.In the present embodiment, motherboard 20 is configured on bottom plate 112, and middle partition board 120 is configured at 20 top of motherboard, hard disk
Frame 130 is positioned on middle partition board 120, and upper cover 140 is detachably arranged in lower casing 110.Hard disk is suitable for and hard disk pallet 30
It is positioned over hard disk rack 130 together and motherboard 20 is electrically connected at by connecting line 40.
In the present embodiment, middle partition board 120 and bottom plate 112 are at a distance, and including one first opposite side 122 and
One second side 124.As shown in Figure 6 to 8, the first side 122 of middle partition board 120 includes telescopic two first pivot 123,
Second side 124 includes telescopic two second pivot 125, and each side plate 114 includes corresponding to the first pivot 123 and the second pivot
Two pivot hole 118 of axis 125, in the present embodiment, the first pivot 123 and the second pivot 125 can be night bolt, but the first pivot
123 and second the type of pivot 125 be not limited system.Therefore, the first side 122 of middle partition board 120 can be by scalable
Two first pivots 123 be articulated in both side plate 114 or exit and be located away from both side plate 114 in these corresponding pivot hole 118, and
Second side 124 of middle partition board 120 is articulated in both side plate 114 also by telescopic two second pivot 125 or exits in right
These pivot hole 118 for answering and be located away from both side plate 114.
Therefore, one of use state of middle partition board 120 is two first pivots 123 and the second side of the first side 122
Two second pivots 125 in portion 124 stretch into corresponding pivot hole 118 on both side plate 114, and are fixed on both side plate 114.Middle partition board
120 another use state is that two first pivots 123 of the first side 122 stretch into corresponding pivot hole 118 on both side plate 114,
And second two second pivots 125 of side 124 exit in pivot hole 118 corresponding on both side plate 114, and partition board 120 is such as in causing
It is overturn shown in Fig. 5 with two first pivots 123 of the first side 122 for axle center.Another use state of middle partition board 120 is
Two second pivots 125 of two sides 124 stretch into corresponding pivot hole 118 on both side plate 114, and two first pivots of the first side 122
Axis 123 is exited in pivot hole 118 corresponding on both side plate 114, and partition board 120 is as shown in Figure 10 selectively with the first side in causing
Portion 122 is overturn for axle center.
In addition, please refer to Fig. 3 and Fig. 9, in the present embodiment, middle partition board 120 includes being closer to bottom plate 112 at least
One first part 126 and the second part 127 further away from bottom plate 112.More particularly, middle partition board 120 is located at including two
The first part 126 of both sides and a second part 127 for being located at centre.Due between first part 126 and second part 127
There are segment difference, each first part 126, the side plate 114 for being connected to the wall surface of second part 127 and its being contacted can be collectively formed recessed
Ditch.The part for being connected to the first connector 136 and the connecting line 40 of motherboard 20 of hard disk rack 130 can be placed as illustrated in fig. 9
In chase, to avoid being placed directly on motherboard 20, and connecting line 40 is drawn out (such as state of Fig. 9) in hard disk rack 130
When, (it can namely connect the wall surface of first part 126 and second part 127 along the wall surface of chase and be connected to first part
126 side plate 114) it is mobile.
In addition, when hard disk rack 130 is located in lower casing 110, hard disk rack 130 can be born in second of middle partition board 120
Divide on 127, since second part 127 comes high than first part 126, hard disk rack 130 can be avoided to be pressed onto connecting line 40.Such as Fig. 9
Shown, hard disk rack 130 includes protruding from multiple raised the 134 of both sides, these protrusions 134 for being located at 130 both sides of hard disk rack can connect
Touch both side plate 114, that is to say, that hard disk can be collectively formed with the both side plate 114 of lower casing 110 in the second part 127 of middle partition
The track of frame 130, and hard disk rack 130 is enable to be pulled out to the right in a manner of mobile in this track.In addition, in hard disk rack 130
Can have multiple first connectors 136 and multiple second connectors 138, be packed into firmly together with hard disk pallet 30 in hard disk (not being painted)
After plate rail 130, hard disk can butt up against the second connector 138, and since the first connector 136 is electrically connected at the second connector 138, because
This, after motherboard 20 can be docked by connecting line 40 with the first connector 136, is electrically connected to firmly via the second connector 138
Disk.
In general, in repair or maintenance and operation servomechanism 10, there are two types of situations, and one kind is to need replacing full wafer motherboard
20, another kind is the subelement replaced on motherboard 20, e.g. replaces central processing unit 23 or memory 24 etc..This reality
Applying the casing of servomechanism 100 of example, be especially designed as middle partition board 120 can be with two first pivots 123 of the first side 122 for axle center
Overturning or can with two second pivots 125 of the second side 124 for axle center overturning, can take difference to be directed to both situations
Casing of servomechanism 100 dismantle mode.It below will be to this explanation.
In the present embodiment, motherboard 20 can be divided into one first area 22 and one second area 25.First area 22 of motherboard 20
Including dismountable central processing unit 23 or memory 24, and the second area 25 includes a connector 26 being connect with connecting line 40.
As seen from Figure 3, in the present embodiment, when partition board 120 is covered on motherboard 20 in the middle, the central processing unit 23 of motherboard 20 with
Memory 24 can be covered by middle partition board 120, and connector 26 can expose to middle partition board 120.That is, if Fig. 3 is referred to simultaneously
With Fig. 5 it is found that middle partition board 120 can cover the first area 22 of motherboard 20, and the second area 25 of exposed motherboard 20.In addition, such as
Shown in Fig. 5, the first side 122 of middle partition board 120 is to the orthographic projection position of bottom plate 112 in orthographic projection of the motherboard 20 to bottom plate 112
Except, and after partition board 120 is overturn with the first side 122 for axle center in causing, it can be with exposed entire motherboard 20.Similarly, if
It is the first area 22 (such as Figure 10) that then can only expose motherboard 20 after partition board 120 is overturn with the second side 124 for axle center.
Therefore, for the first situation of repair or maintenance and operation servomechanism 10, that is, when user needs replacing full wafer
When motherboard 20, it can be carried out according to the following steps.First, as shown in Figure 1, user elder generation removal upper cover 140.Then,
In general, hard disk in hard disk rack 130 and connecting line 40 is had between the connector 26 of motherboard 20, it in this step, can
Connecting line 40 is first pulled out into connector 26 in motherboard 20, subsequent program is carried out to facilitate.
Come again, refer to Fig. 2 and Fig. 3, hard disk rack 130 and both side plate 114 its one of include two third pivots 116,
In it is another including being depressed in edge and corresponding to two shrinkage pools 132 of two third pivots 116, hard disk rack 130 is suitable for through two thirds
The cooperation of pivot 116 and two shrinkage pools 132 and pivoted relative to both side plate 114.In the present embodiment, hard disk rack 130 includes recess
Two shrinkage pools 132 in edge, and both side plate 114 includes being convex to mutual two thirds pivot 116, user can be by hard disk rack 130
It is overturn with two third pivots 116 for axle center to Fig. 3 and position shown in Fig. 4.
Then, the second pivot 125 of the second side 124 of middle partition board 120 is exited into pivot hole 118 in both side plate 114, then
It is overturn to position shown in fig. 5, and exposed outside entire for axle center with two first pivots 123 of the first side 122 of middle partition board 120
Motherboard 20.In this way, user just can directly replace motherboard 20 in the state of Fig. 5.It is of course also possible in this case
Replace the element on motherboard 20.
In addition, for second of situation of repair or maintenance and operation servomechanism 10, that is, when user only needs replacing master
When element (be, for example, central processing unit 23 or memory 24 etc.) on machine plate 20, it can be carried out according to the following steps.
Similarly, first, as shown in Figure 1, user elder generation removal upper cover 140.It then, can be by hard disk rack 130 along interval
The second part 127 of plate 120 pulls out to the right lower casing 110 to position as shown in Figure 9 with the track that both side plate 114 is formed.
As seen from Figure 9, the second side 124 of middle partition board 120 to the orthographic projection position of bottom plate 112 in positive throwing of the motherboard 20 to bottom plate 112
Within shadow, and in causing partition board 120 with the second side 124 for axle center overturning after, as illustrated in fig. 10, only motherboard 20
First area 22 is exposed, and the middle partition board 120 that the second area 25 of motherboard 20 can be reversed covers.In this case, user
Replace the element in the first area 22 of motherboard 20.
It is noted that in the mode of operation of Fig. 9 and Figure 10, since middle partition board 120 is with the two of the second side 124
Second pivot 125 is axis rotation, and after the flop, connecting line 40 of the script position on middle partition board 120 still can be with for middle partition board 120
Between the second area 25 for maintaining the middle partition board 120 and motherboard 20 after overturning, therefore, it can not have to first in this mode of operation
Connecting line 40 is pulled out into the connector 26 in motherboard 20, and provides user more rapidly and easily selects.
In conclusion in the servomechanism of the present invention, motherboard is placed on the bottom plate of casing of servomechanism, middle partition board configuration
Both side plate is articulated in the first side of the top of motherboard, and middle partition board, the second side is detachably secured to both side plate, firmly
Plate rail is positioned on middle partition board.When to repair the motherboard on bottom plate, as long as hard disk rack is picked up, and partition board in releasing
The second side and both side plate stationary state, middle partition board can the first side be axle center overturning, and expose motherboard, with side
Just user repairs the element on motherboard or replaces motherboard.In addition, the first side of middle partition board can include it is scalable
Two first pivots, the second side can include telescopic two second pivot, and cause in partition board also may be selected with the second side
Portion is overturn for axle center.In one embodiment, the first side of middle partition board to the orthographic projection position of bottom plate motherboard to bottom plate just
Except projection, and after partition board is overturn using the first side as axle center in causing, entire motherboard is exposed, and replaceable entire host
Plate, and the second side of middle partition board to the orthographic projection position of bottom plate within orthographic projection of the motherboard to bottom plate, and cause in partition board
After being overturn using the second side as axle center, the motherboard of only part is exposed, and what the part of e.g. connector was still reversed
Middle partition board masking, in this way, can then be replaced on motherboard under the situation for not needing to pull out the connecting line between hard disk and motherboard
Element, and provide the selection in a variety of dismountings.
Although the present invention is disclosed as above with embodiment, it is not limited to the present invention, any affiliated technology neck
Technical staff in domain, without departing from the spirit and scope of the present invention, when can make a little variation with retouching, therefore the present invention guarantor
Shield range is subject to the range defined depending on appended claims.
Claims (10)
1. a kind of casing of servomechanism, to accommodate a motherboard and a hard disk, which includes:
One lower casing including a bottom plate and is connected to the opposite sides plate of the bottom plate, and the wherein motherboard is positioned over the bottom plate;
Partition board in one, it is at a distance with the bottom plate, and including opposite one first side and one second side, wherein this first
Side is articulated in the both side plate, which is detachably secured to the both side plate, and so that partition board may be selected in this
Ground is overturn by axle center of first side;
One hard disk rack is positioned in this on partition board and carries the hard disk;And
One upper cover is detachably arranged in the lower casing.
2. casing of servomechanism as described in claim 1, which is characterized in that first side of partition board includes telescopic in this
Two first pivots, second side include telescopic two second pivot, respectively the side plate include corresponding to first pivot and
Two pivot hole of second pivot, two first pivot are exited respectively in the corresponding pivot hole, and so that partition board is optional in this
It is overturn by axle center of second side with selecting.
3. casing of servomechanism as described in claim 1, which is characterized in that partition board includes one first close to the bottom plate in this
Divide and the second part far from the bottom plate, casing of servomechanism receiving be connected to a connecting line of the motherboard and the hard disk,
The connecting line is placed on the first part and along being connected to the first part and the wall surface of the second part moves, and the hard disk
Frame is born in the second part.
4. casing of servomechanism as described in claim 1, which is characterized in that the hard disk rack includes two third pivots, and described two
Side plate includes being depressed in edge and corresponding to two shrinkage pools of the two thirds pivot;Alternatively, the both side plate includes two third pivots
Axis, and the hard disk rack includes being depressed in edge and corresponding to two shrinkage pools of the two thirds pivot;Wherein, which passes through institute
It states the cooperation of two third pivots and two shrinkage pool and pivots relative to the both side plate or moved by the two thirds pivot
The both side plate is located away from for two shrinkage pool.
5. casing of servomechanism as described in claim 1, which is characterized in that the hard disk rack includes protruding from described in both sides and contact
Multiple protrusions of both side plate, and the hard disk rack is moved along the track that the both side plate is collectively formed with partition in this.
6. a kind of servomechanism, including:
One casing of servomechanism, including:
One lower casing including a bottom plate and is connected to the opposite sides plate of the bottom plate;
Partition board in one, it is at a distance with the bottom plate, and including opposite one first side and one second side, wherein this first
Side is articulated in the both side plate, which is detachably secured to the both side plate, and so that partition board may be selected in this
Ground is overturn by axle center of first side;
One hard disk rack is positioned in this on partition board;And
One upper cover is detachably arranged in the lower casing;
One motherboard is positioned over the bottom plate;And
One hard disk is positioned over the hard disk rack and is electrically connected at motherboard.
7. servomechanism as claimed in claim 6, which is characterized in that first side of partition board includes telescopic two the in this
One pivot, second side include telescopic two second pivot, respectively the side plate include corresponding to first pivot and this
Two pivot hole of two pivots, two first pivot are exited respectively in the corresponding pivot hole, and so that partition board is selectively in this
It is overturn by axle center of second side.
8. servomechanism as claimed in claim 7, which is characterized in that the orthographic projection of first side to the bottom plate of partition board in this
Position except the motherboard is to the orthographic projection of the bottom plate, and cause this in partition board using first side for axle center overturning after, it is whole
A motherboard is exposed, and in this partition board second side to the orthographic projection position of the bottom plate the motherboard to the bottom plate just
Within projection, and after so that partition board is overturn using second side as axle center in this, one first area of the motherboard is exposed, the master
One second area of machine plate be reversed this in partition board cover.
9. servomechanism as claimed in claim 7, which is characterized in that the servomechanism further includes:
One connecting line is connected to the motherboard and the hard disk, and a part for the connecting line is located in this on partition board, wherein the master
Firstth area of machine plate includes dismountable central processing unit or memory, and secondth area includes connect with the connecting line one
Connector.
10. servomechanism as claimed in claim 6, which is characterized in that the hard disk rack includes two third pivots, and the both side plate
Including being depressed in edge and corresponding to two shrinkage pools of the two thirds pivot;Alternatively, the both side plate includes two third pivots, and
The hard disk rack includes being depressed in edge and corresponding to two shrinkage pools of the two thirds pivot;Wherein, which passes through described two
The cooperation of third pivot and two shrinkage pool and pivoted relative to the both side plate or by the two thirds pivot remove in
Two shrinkage pool and be located away from the both side plate.
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CN201611246129.6A CN108255257B (en) | 2016-12-29 | 2016-12-29 | Server casing and server |
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CN201611246129.6A CN108255257B (en) | 2016-12-29 | 2016-12-29 | Server casing and server |
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CN108255257B CN108255257B (en) | 2021-02-23 |
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Cited By (1)
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CN111596741A (en) * | 2020-05-29 | 2020-08-28 | 英业达科技有限公司 | Server casing |
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TW452105U (en) * | 1999-12-22 | 2001-08-21 | Yang Sheng Ye | Assembling structure of hardware apparatus frame and computer casing |
TW435933U (en) * | 2000-09-20 | 2001-05-16 | Universal Scient Ind Co Ltd | Structure capable of lifting or separating the floppy disk frame of a computer |
CN2720504Y (en) * | 2004-07-23 | 2005-08-24 | 微星科技股份有限公司 | Electronic device housing |
CN2735723Y (en) * | 2004-09-16 | 2005-10-19 | 上海环达计算机科技有限公司 | Electronic device assembling mechanism |
US20080080149A1 (en) * | 2006-09-29 | 2008-04-03 | Hanna Timothy G | Tray mechanism for servers |
CN201556142U (en) * | 2009-09-30 | 2010-08-18 | 勤诚兴业股份有限公司 | Server case |
TW201603685A (en) * | 2014-03-28 | 2016-01-16 | 鴻海精密工業股份有限公司 | Electronic device |
Cited By (2)
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CN111596741A (en) * | 2020-05-29 | 2020-08-28 | 英业达科技有限公司 | Server casing |
CN111596741B (en) * | 2020-05-29 | 2023-08-04 | 英业达科技有限公司 | Server casing |
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