The application is that the sequence number that proposed on April 22nd, 2005 is the part continuation application of 11/112552 formal U.S. Patent application.The sequence number that the application requires on November 24th, 2004 to propose is 60/630696; The sequence number that on August 2nd, 2005 proposed is 60/704745; The sequence number that on August 2nd, 2005 proposed is 60/704746; The sequence number that proposed on August 2nd, 2005 is that the sequence number that proposed on August 23rd, 60/704763 and 2005 is the rights and interests and the priority of 60/710400 U.S. Provisional Application.
Description of drawings
Fig. 1~26 expression embodiments of the invention, wherein shell is astomous, and uses the air of fans drive on data storage device.
Fig. 1 representes astomous embodiment of the present invention, and its ventilation channel forms and have the data storage device of operation on opposite wall;
The shell of Fig. 1 when Fig. 2 A is illustrated in fire;
The inlet opening 31 of the shell shown in Fig. 2 B presentation graphs 2A;
Fig. 3 is illustrated in that shell has the alternative embodiment of entrance and exit path on the identical wall;
The embodiment of Fig. 3 when Fig. 4 representes fire is arranged;
Fig. 5 representes that for the entrance and exit ventilation channel shell uses another embodiment of tortuous path;
The embodiment of Fig. 5 when Fig. 6 representes fire is arranged;
Fig. 7 representes that shell has another embodiment as one of the entrance and exit path elongated path;
The embodiment of Fig. 7 when Fig. 8 representes fire is arranged;
Fig. 9 representes that the entrance and exit path forms and utilize the embodiment of expanding material liner on opposite wall;
The embodiment of Fig. 9 when Figure 10 representes fire is arranged;
Figure 11 representes that elongated tubular is placed in the ventilation channel, another embodiment of this effective expanding material liner;
The embodiment of Figure 11 when Figure 12 representes fire is arranged;
Figure 13 representes to place a plurality of data storage devices and has the shell with the ventilation orifice of expanding material liner;
The embodiment of Figure 13 when Figure 14 representes fire is arranged;
Outlet and the exit passageway that Figure 15 representes shell formation and inlet and exit passageway on a sidewall are all used the expanding material liner, and another embodiment of expanding material liner is also used in the outside of shell;
The embodiment of Figure 15 when Figure 16 representes fire is arranged;
Figure 17 representes that shell has the whole outside embodiment with the expanding material liner of the wall processed by metal or other high-strength materials and this shell;
The embodiment of Figure 17 when Figure 18 representes fire is arranged;
Figure 19 representes that the entrance and exit path of shell has that the opening that passes path extends and with the embodiment of the perforated plate of expanding material liner;
Figure 20 representes the embodiment of Figure 19, and wherein, expanding material expands when fire is arranged, and perforation in the choke plate and obstruction ventilation channel;
Figure 21 representes that shell has the elongated pipe that is contained in the entrance and exit ventilation channel, and the embodiment of these effective fusible material liners;
After Figure 22 is illustrated in and is exposed in the fire, and the fritter of the material solidification of fusion and formation blocks or blocks fully the embodiment of Figure 21 of this pipe;
Figure 23 representes the embodiment that the entrance and exit path of shell is formed by a plurality of hollow pipes with fusible material liners;
Figure 24 is illustrated in the embodiment of the Figure 23 after being exposed in the fire;
Figure 25 representes the embodiment that the entrance and exit path is formed by a plurality of pipes downward-sloping on the outward flange of shell;
The embodiment of Figure 25 after Figure 26 representes to be exposed in the fire.
Figure 27~32 are represented the astomous of shells and are not used the embodiments of the invention of fan;
Figure 27 representes the astomous of shell, does not have ventilation channel and the embodiment that uses amber ear card device cooling data storage device;
The embodiment of Figure 27 after Figure 28 representes to be exposed in the fire;
Figure 29 representes astomous and do not have the shell of ventilation channel, wherein, if the exterior PC plate makes the temperature in minimum and this shell that detects of the electric power of delivering to storage device too high, then cuts off the electricity supply;
The embodiment of Figure 29 after Figure 30 representes to be exposed in the fire;
Figure 31 is expressed as imperforation and does not have ventilation channel, wherein outside and inner fin and the hot linked shell of fusible connecting rod;
The embodiment of Figure 31 after Figure 32 representes to be exposed in the fire;
Figure 33~40 expressions " bag " are surrounded data storage device, are formed water-fast embodiments of the invention;
Figure 33 representes to have the shell that surrounds data storage device and form water-fast flexible metal thin slice bag conduct " bag ";
The sheet metal bag that Figure 34 representes to have elastomeric or waterproof coating forms the embodiment of " bag " that surround data storage device;
Figure 35 representes to lay a plurality of data storage devices, and wherein this data storage device is formed the shell that water-fast heat conduction " bag " is surrounded;
Figure 36 representes the shell of the Figure 35 after this device is exposed in the fire;
Water-fast " bag " that Figure 37 representes to surround data storage device comprises the shell of the fin of loading onto fin with by sheet metal bag flexible or that other waterproof coatings cover;
Figure 38 representes water-fast " bag " for having two shells than rigidity and non-deflecting canister of being with the part of circumferential sealing pads;
Figure 39 representes water-fast " bag " is the fin of loading onto fin and the embodiment that surrounds the canister of data storage device;
Figure 40 representes, and water-fast " bag " comprises the embodiment of the fin with inside and outside fin;
Figure 41 representes that movable opening has the shell of the O shape circle of waterproof;
The embodiment of Figure 41 after Figure 42 representes to be exposed in fire and/or the water;
But Figure 43~46 expressions utilize the shell of gypsum or other fire-resistant molded formation of moulding material;
Figure 43 representes the molded shell that part is in place in the enclosure;
Figure 44 representes to take off individual part, with the shell of Figure 43 of the character of outstanding model;
Figure 45 representes another molded shell that part is in place;
Figure 46 representes that part does not have the shell of Figure 45 in place;
The embodiment of " free convection " of the present invention of fan is not used in Figure 47~66 expressions;
Figure 47 opening of representing to enter the mouth is done on diapire and is had the hinged top or the shell of upper wall;
Figure 48 representes that optional spring is fixed on the shell of the Figure 47 that covers;
It is by the hinged lid of solenoid-activated or the shell of roof that Figure 49 representes to have only ventilating system;
Figure 50 is illustrated in the shell of the Figure 49 after being exposed in the fire;
Figure 51 representes to have movable opening, has entry and the shell of the exit passageway on opposite sidewall on a sidewall;
Figure 52 is illustrated in the shell of the Figure 51 after being exposed in the fire;
Figure 53 representes to have the shell in " free convection " of entry on the sidewall and the exit passageway on lid or roof;
After Figure 54 representes to be exposed in the fire, the shell of Figure 53 that movable opening is closed;
Figure 55 representes that inlet does on diapire, and outlet is done on lid or roof and the shell of movable opening near " free convection " of opening;
The shell of Figure 55 after Figure 56 representes to be exposed in the fire;
Figure 57 representes that a plurality of entries make on sidewall and end wall the diapire near shell, and exit passageway does on sidewall and end wall near covering or roof, and all paths are with the shell of the material liners of temperature activation;
Figure 58 is illustrated in the shell of the Figure 57 after being exposed in the fire;
Figure 59 represent first or top be illustrated in its first or raised position, the shell of two parts that ventilation channel is open;
After Figure 60 represented to be exposed in the fire, first or top of shell moved downward the also shell of Figure 59 of enclosed ventilation path by action of gravity;
Figure 61 represent to enter the mouth on the diapire with the shell of " free convection " of outlet on lid or roof;
Shell after Figure 62 representes to be exposed in the fire;
Figure 63 representes that inside opening is near making " free convection " shell on lid or roof at the entrance and exit path on the diapire;
The shell of Figure 63 after Figure 64 representes to be exposed in the fire;
Figure 65 representes that outside opening is positioned at " free convection " shell near the exit passageway place;
The shell of Figure 65 after Figure 66 representes to be exposed in the fire;
Figure 67~70 expressions have the various shells of various parts;
Figure 67 representes that perforated plate liner expansion coating does on its diapire as its lid or roof and entry, and has fan, is used for driving by the strong hand the shell that cooling air is crossed data storage device;
The shell of Figure 67 after Figure 68 representes to be exposed in the fire;
Figure 69 representes to have electric power and data cable extends to the 3rd path of data storage device through it, and this path has the shell with the perforated plate of expanding material liner; With
The shell of Figure 69 after Figure 70 representes to be exposed in the fire.
Embodiment
A) have the path of fluting and the imperforation shell of fan
Fig. 1 representes the first embodiment of the present invention.Data storage device representes that with 10 it is the most common to be a computer hard disc driver.Storage device 10 is connected with electric power connecting line 80 with the data that the diapire that passes shell 20 21 extends.Shown in the arrow among Fig. 1, each sidewall 23 and 24 has groove or path 31 or 32 through its formation, flows through path 32 to allow input air to flow through path 31 with air-out.Fan 40 is installed in the inboard near the wall 24 of input channel or blow vent 31, and utilizes the circuit that does not for the sake of clarity illustrate, through these data and 80 power supplies of electric power connecting line.Be appreciated that shell 20 comprises lower wall 21, upper wall 22 sidewalls 23 and 24 and the end wall that do not illustrate.Shell 20 also comprises a gateway or gets into and cover (not shown), with entering storage device 10.In each following embodiment, setting can get into the gateway of data storage device or get into lid.But reference sequences number is No. 11/112552 application, and this application comprises the detailed description of shell 20, does not repeat here.
Fig. 2 A is the schematic representation of apparatus that receives Fig. 1 of flame 90 effects.In the beginning of fire, general, data and power connecting line are destroyed or fusion, and fan 40 stops operating.The temperature of fire 90 can reach 900~950 ℃ usually.The common working temperature of the inner chamber 29 of shell 20 is approximately 25~30 ℃.Interior cavity temperature can reach about 90~950 ℃, can not cause the loss of data in the storage device 10.As stated, when the air themperature in the inner chamber 29 of shell 20 because the effect of fire is when slowly raising, shown in the arrow among Fig. 2, the air expansion in the chamber 29 and outwards flow out through path 31 and 32.The mobile obstacle of the air of this expansion with reduce through path 31 with 32 from fiery 90 import inner chamber 29 into heat.Shown in Fig. 2 B, general, path or blow vent 31 and 32 are rectangular shape, are approximately 120 cubic inches inner chamber 29 for volume, and its height H is approximately 0.1 inch, and width is approximately 0.5 inch.
In the embodiment shown in fig. 1; A single fan 40 sucks air through inlet blow vent or groove 31 and forces air to pass through storage device 10 and pass through outlet blow vent 32 and outwards flows out; In the opposite sidewall 23 and 24 of shell 20, on the opposite side of storage device 10, make the entrance and exit blow vent.
Fig. 3 and Fig. 4 represent the second embodiment of the present invention, wherein, all do on the identical sidewall 123 except entry 131 and exit passageway 132, and shell 120 is identical with shell 20 illustrated in figures 1 and 2.Shown in the arrow of Fig. 3, fan 140 blows to storage device 110 air that gets into above the storage device 110, and discharges through drain passageway or blow vent 132.
As shown in Figure 4, when fire began, when data and electric power connecting line 180 received the infringement of fire, fan 140 stopped operating.When fire makes air themperature in the inner chamber 129 raise lentamente, shown in the arrow of Fig. 4, the air expansion in the inner chamber 129 and outwards flow out through blow vent 131 and 132.
Fig. 5 and Fig. 6 represent the third embodiment of the present invention, wherein, place storage device 210 in the shell 220 and use tortuous passage as the inlet 231 and the drain passageway that on wall 223 and 224, form.Fan 240 sucks air in the tortuous entry 231, and blows air over storage device 210 and the drain passageway 232 through complications are discharged.As shown in Figure 5, entry is included in 180 ° of direction of 231a and turns.Drain passageway comprises a series of three half-turn 232a, 232b and 232c.The cross section of tortuous passageway can be cylindrical shape or rectangle.When sidewall 223 and 224 beginnings were molded by gypsum or other refractory materials, these paths integrally formed on these sidewalls.
Fig. 6 representes how the approaching of fire and expression fan 240 stop, and when internal temperature slowly raise, the air of expansion outwards flowed out through path 231 and 232 from inner chamber 229.
Fig. 7 and Fig. 8 comprise the 4th embodiment that places data storage device 310 in the shell 320.In this embodiment, on the back of the body wall (not shown) of shell 320, make the groove 331 of a single rectangle.Groove or blow vent 331 are as the entrance and exit blow vent.Shown in the air flow arrows among Fig. 7, fan 340 sucks surrounding air through the bottom of blow vent 331, and passes through the top air-out of blow vent 331.
Fig. 8 representes to receive the device of Fig. 7 of fire action.Fan 340 quits work.Shown in the arrow among Fig. 8, when the air in the inner chamber 329 is slowly heated by fire, in the air inlet passage 331 of expansion.
B) have the imperforation shell of expansion or meltable material and fan
Fig. 9~26 expressions utilize the embodiments of the invention of expansion or fusible material seal shell when fire.
As shown in Figure 9, operating data storage device 410 is placed in the shell 420, and receives its electric power input and data input through the circuit in the lower wall 424 of imbedding shell 420 480.Shell 420 has sidewall 421 and 422, roof 423, diapire 424 and the end wall that does not illustrate.Data storage device 410 keeps cooling by fan 440; Fan 440 sucks surrounding air through the entry 431 that in the sidewall 421 of shell 420, forms; Pass data storage device 410, and discharge through the drain passageway 432 that on the sidewall 422 of shell 420, forms.According to the present invention, path 431 and 432 is respectively with the liner 441 and 442 liners that expand.The surface of inflated insert 441 and 442 complete overlay paths 431 and 432.
Under the situation that fire is arranged, shown in figure 10, data and power circuit 480 fusings or damage.Data storage device 410 is closed with fan 440 and is quit work. Inflated insert 441 and 442 expands and complete sealed entry and exit passageway 431 and 432. Path 431 and 432 cross section can be rectangle, circle or other shapes.Path 431 and 432 also can comprise mesh or the perforation openings that has the expansion coating.Path 431 and 432 shape of cross section are crucial, and its meaning just can make for 440 times enough cooling airs through path at fan (or other blowing plants), and this path of inflated insert total blockage is being arranged under the condition of a fire condition.
Fig. 9 and refractory outer cover 420 shown in Figure 10 are preferably processed by gypsum or other fire proofing materials.Shell 420 can comprise entering plate or the door (not shown) of being convenient to install and take off data storage device 410 and fan 440.
Figure 11 and Figure 12 represent to place in the shell 520 (preferably being processed by gypsum or other fire proofing materials) embodiment that the data storage device 510 in the lower wall 524 is imbedded on its electric power and Data In-Line road 580.Fan 540 is placed on the outer end of the insulated tube 561 that extends through the entry 531 that on the sidewall 521 of shell 520, forms.This insulated tube can by can tolerate steel, aluminium or the earthenware of discussion temperature.Insulated tube 561 must be able to be placed the inflated insert 541 of the inner surface that covers insulated tube 561 fully.The length of pipe 561 can guarantee the inner space of inflated insert 541 complete sealed tubes 561 better than length.Short pipe can be used to not require the applicable cases of excessive fire resistance property.Equally, exit passageway 532 has second insulated tube 562 of the wall 522 that passes shell 520.Shown in figure 12; Under the situation that fire is arranged; The inflated insert 542 of pipe 561 inflated insert 541 and pipe 562 expands and sealed entry pipe 561 and discharge pipe 562 fully, and the temperature that can prevent fire is from the outside of shell 520 and the inner space through path 531 and 532 entering shells 520.
Figure 13 and Figure 14 represent to place in the shell 620 nearly an alternative embodiment of the invention of 6 data storage devices 610.A plurality of fans 640 suck air through entry 631, and pass data storage device 640 and discharge through drain passageway 632.Around the periphery of entry 631, a press strip of expanding material 641 is housed.Second press strip of expanding material 642 is housed around the periphery of exit passageway 632 equally.Shown in figure 14, under the situation that fire is arranged, expanding material 641 and 642 expands, and blocks entrance and exit path 631 and 632, in shell 620, is installed with the chamber of data storage device 610 from the fire entering thereby block high temperature air.
Figure 15 and Figure 16 represent that molded refractory outer cover 720 comprises molded diapire 724, and molded sidewall 721 and 722 and molded roof 723 (with the molded end wall that does not illustrate), all walls all liner have the embodiment of the continuous liner of expanding material 741.Data storage device 740 receives data and electric power through circuit 780.Fan 740 sucks air through entry 731, passes hard disk drive 710 and discharges through drain passageway 732.
When fire; Shown in figure 16; The liner 741b of all surfaces of the inflated insert 741a of all surfaces of liner entry 731 and liner exit passageway 732; Liner 741 with the outer surface of covering shell 720 expands, seal path 731 and 732, and in whole exterior circumferential adding expanding layer of shell 720.Also can increase the refractory ability of device.
Figure 17 and Figure 18 represent one embodiment of the present of invention, and wherein, shell 820 comprises by the metal of steel or other higher-strengths, pottery or other materials that can tolerate high temperature to be processed, and interior " skin " 825 that applies with the continuous liner of expanding material 841.Fan 840 sucks air through entry 831, passes data storage device 810 and discharges through drain passageway 832.Under the situation that fire is arranged, expanding layer 841 expands, and passes path 831 and 832, forms the pantostrat 841a of sealed entry and outlet 831 and 832, thereby can prevent that high temperature air from flowing into the inner chamber of shell 820 from fire.
Figure 19 and Figure 20 represent one embodiment of the present of invention that shell 920 is preferably processed by molded gypsum or other molded refractory materials.Generally be shown 931 entry fan 940 is sucked air in the shell 920, cooling data storage device 910.Cooling air is discharged around data storage device 910 circulation and through generally being shown 932 exit passageway.This embodiment comprises the perforated metal 961 and 962 that is respectively charged in path 931 and 932. Plate 961 and 962 perforation can circulate air, and two boards 961 and 962 usefulness expanding materials, 941 liners." x ' s " expression that expanding material 941 usefulness are little.Under the situation that fire is arranged, the path in expanding layer 941 expansions and the sealed penetration plate 961 and 962.The expanding material that is shown the expansion of 941a blocks the expanding material 941b obstruction exit passageway 932 of entry 931 and expansion.
Figure 21 and Figure 22 represent that shell 1020 interior placement data storage devices 1010 and entry 1031 have the embodiment of a long refractory tube 1051.Pipe 1051 is preferably metal, and with fusible material 1041 liners.The fusion and/or condense when fire is arranged of this meltable material, and form the material fritter that blocks long tube 1051.Equally, outlet or drain passageway 1032 have the long tube 1052 with meltable material 1042 liners.In common work, fan 1040 sucks surrounding air through entry 1031, passes data storage device 1010, and discharges through drain passageway 1032.Shown in figure 22, under the situation that fire is arranged, this fusible material 1041 and 1042 fusions also form the fritter 1041a and the 1042a of chock tube 1051 and 1052 respectively.
Figure 23 and Figure 24 represent to place in the shell 1120 another embodiment of data storage device 1110.In this embodiment, a plurality of refractory tubes 1151~1154 pass sidewall 1122, and the union mesorelief becomes entry 1131.Fan 1140 is contained on the outermost edge of pipe 1151~1154, and forces surrounding air to get in the shell 1120, passes data storage device 1110 and passes through drain passageway 1132.Drain passageway 1132 is formed by one group 4 long refractory tube 1161~1164 arrays.Each root pipe 1151~1154 and 1161~1162 all liner has meltable material.Shown in figure 24, under the situation that fire is arranged, fusible condensation of materials also forms the fritter that is shown 1141a~1141d.Can see these fritters among Figure 24.Like Figure 23 and shown in Figure 24, in sectional view, do not represent long tube 1152,1153 and 1162 and 1163, and in Figure 24, cannot see the fritter that condenses in wherein.
Figure 25 and Figure 26 represent adorning the shell 1220 of data storage device 1210.This embodiment aspect two with Figure 23 and shown in Figure 24 changing.The first, fan 1240 is placed in the shell 1220.The second, refractory tube array 1251~1255 leaves downwards from the exterior side wall 1223 of shell 1220 at a certain angle.Equally, the refractory tube array 1261~1265 that passes sidewall 1222 is crooked on the outward flange of sidewall 1222, and downward-sloping with leave wall 1222.The downward-sloping of pipe 1251~1255 and 1261~1265 is to increase the resistance of this embodiment to going into through the hot-fluid of tipping tube from fire.Each pipe 1251~1255 and 1261~1265 is all used the meltable material liner, and this meltable material is condensed when fire is arranged, and forms one or more material fritters that total blockage should be managed.These fritters are represented with 1241a and 124b, their chock tubes 1251 and 1255.Equally, fritter 1241c and 1241b block discharge pipe 1261 and 1265.Invisible remaining pipe in Figure 25 and 26 the sectional view is also having getting clogged and entirely shutting of fire in a like fashion.
C) there is not fan and do not have the imperforation shell of ventilation channel
The embodiments of the invention that do not have fan and do not have the imperforation shell of ventilation channel are used in Figure 27~32 expressions.
Figure 27~28 are illustrated in the data storage device 1310 in the imperforation shell 1320.Amber ear card device 1350 be installed in data storage device 1310 the top and with latter's thermo-contact.The sidewall (not illustrating among Figure 27) that amber ear card device 1350 passes shell 1320 extends.As technical known, amber ear card device be in a direction in the work, promptly from a kind of thermo-electric heat pump of inside to the outside atmosphere heat conduction of shell 1320.The external temperature sensor (not shown) detects critical external temperature, and when fire is arranged, cuts off the work of amber ear card device 1350.When fire is arranged, be cut to the power of data storage device through fusion data power line 1380, perhaps another kind of method is to utilize external temperature sensor to cut off electric power.When Figure 28 has been illustrated in fire, through the data of circuit 1380 and losing of electric power.Equally, when utilizing external temperature sensor to cut off amber ear card device, on any one direction, do not conduct heat, but and utilize the refractory properties protected data storage device 1350 of shell 1320 can cause thermal damage.Figure 27 and embodiment shown in Figure 28 do not have moving parts and do not have ventilation channel, and be therefore water-fast.Through utilizing silicone or other water-resistant material coatings, data and power circuit 1380 are also water-fast.
Figure 29 and Figure 30 represent imperforation and do not have the embodiment that the shell 1420 that ventilates surrounds data storage device 1410.In this embodiment, external printed circuit board 1430 controls pass to the electric power of data storage device 1410.Temperature sensor 1460 is set in shell 1420.Temperature sensor 1460 is connected with printed circuit board (PCB) 1430 through circuit 1461 usefulness electronic methods.When transducer 1460 detected critical temperature, printed circuit board (PCB) 1430 was cut to the electric power of data storage device 1410.In addition, in the common course of work that does not have fire, when not using storage device, the PC plate temporarily cuts off the electric power that passes to data storage 1410.Through at the electric power that reduces to supply with during use data storage device 1410, can reduce the heat that in shell 1420, produces greatly by data storage device 1410.The embodiment of Figure 29 and Figure 30 does not use moving parts.Because do not have opening and be not used for the path of ventilation purpose through sidewall, shell 1420 is waterproof.Therefore, shell 1420 is water-fast basically.Through using silicone or other water-resistant materials, can make the power circuit between the inside of printed circuit board (PCB) 1430 and shell 1420 water-fast.
Figure 31 and embodiment shown in Figure 32 comprise the imperforation shell 1520 that does not have through the ventilation channel of its wall.Data storage device 1510 receives data and supplies power through power circuit 1580.The aperture that passes through shell 1510 that power circuit 1580 passes is full of silicone or other water-resistant materials.Like this, shell 1520 is fire-resistant water-fast again.Shown in figure 31, through the fusible or liquid conductor 1540 of high conductance, conduct to inner fin 1530 and outside heat sink 1531, can transmit the excessive heat that produces by data storage device 1510.The conductive metal that fusible connecting rod 1540 is 200~300 ° of F by known fusing point with selection is processed.When data storage device 1510 work, pass through interior fin 1530 by the heat that this device produces, link 1540 through the fusible of conduction again, conduct in the ambient atmosphere through outer fin 1531.Shown in figure 32, when fire was arranged, fusible material 1540 melted and discharges through path 1560, stays the cavity 1570 that only comprises air.Cavity 1570 is sealed with outer fin 1531 by interior fin 1530 fully.The air chamber 1570 of discharging back formation through path 1560 at fusible material 1540 limits the inside that the heat that is produced by outside fire is sent to shell 1520.Because the unique path of the wall through shell 1520 is for through using the path of the water-fast power circuit 1580 of silicone or other water-resistant materials, so shell 1520 is water-fast.Since inside by interior fin 1530 and its outer surface by outside fin 1531 cover fully, air cavity 1570 is water-fast.
D) have the watertight case of the bag that surrounds digital data storage unit
The embodiments of the invention of the water-fast bag that surrounds and seal data storage device are with or are not comprised with the shell of movable opening in Figure 33~40 expressions.This bag is positioned in the inside of refractory outer cover.
Figure 33 and Figure 34 represent the inner shell 1620 of placing data storage device 1610.Shell 1620 is included on the sidewall 1621 and forms, and allows the surrounding air to flow to the entry 1631 of shell 1620 inner faces from shell 1620 outsides.On relative sidewall 1622, form exit passageway 1632.Fan 1640 is installed near exit passageway 1632 places, and sucks air through entry 1631, passes data storage device 1610, and shown in the arrow of Figure 33, outwards flows out through exit passageway 1632. Movable opening 1651 and 1652 is placed on respectively near entry 1631 and exit passageway 1632 places.When fire is arranged, opening 1651 and 1652 seal path 1631 and 1632.Movable opening 1651 with 1652 explain that more completely being included in sequence number is in No. 11/112552 the U. S. application, does not repeat for brevity here.
" bag " 1670 surrounds and seals data storage device 1610 fully.Bag 1670 be water-fast and heat conduction, and is best by aluminium foil or imbed enough metallic particles, and the nonmetallic materials of its heat conduction are processed.Bag 1670 must be for abundant heat conduction, the thermal capacitance that is produced by storage device 1610 is prone to through bag 1670 conduction, and spreads out of through exit passageway 1632 at last.Here with claims in, the speech of use " bag " uses in broad sense, it comprises: the heat-conducting metal thin slice; Through extruding, die casting, injection-molded, container and sheet metal container that machining forms.For brevity, do not comprise opening 1651 and 1652 independent figure when being illustrated in fire in its off-position.
Figure 34 representes to be equipped with the shell 1720 of data storage device 1710.Situation as above-mentioned embodiment shown in Figure 33 is such, and entry 1731 can allow to be flowed by the cooling air that fan 1740 drives with exit passageway 1732.Equally, opening 1751 and 1752 is positioned near path 1731 and 1732 places, and when fire is arranged, closes these paths.With Figure 33 relatively, Figure 34 great is not all paper tinsel bag 1770 usefulness elastomers or waterproof coating 1775 applies.Coating 1775 can be through obtaining in the drum that data storage device 1710 and paper tinsel bag 1770 is immersed in elastomer or waterproof coating.Another kind of scheme is to utilize method known on injection or the other technologies that elastomer or waterproof coating are added on the bag 1770.
Figure 35 and Figure 36 represent that the present invention of a plurality of data storage device 1810a~1810e of placement in the shell 1820 has the embodiment of Special Significance.Shell 1820 is included in entry 1831 that forms on the sidewall 1821 and the exit passageway 1832 that on sidewall 1822, forms.Movable opening 1851 and 1852 utilizes hinge to be installed near path 1831 and 1832 places.A plurality of fan 1840a~1840c are installed near exit passageway 1832 places and make air pass through entry 1831 and suck, pass through the inside of shell 1820 again, and discharge through drain passageway 1832.A plurality of data storage device 1810a~1810e are included in " bag " or shell 1870 of water-fast and heat conduction.Bag 1870 can be processed with flexible metal forming, perhaps additionally, can be made up of the can of rigidity more.This can forms the firm and highly water-fast shell of data storage device 1810a~1810e.Second group of optional fan 1890a~1890c is installed in the bag 1870, and air is circulated round data storage device 1810a~1810e in bag 1870.Shown in figure 36, when fire was arranged, the solenoid 1891 and 1892 that cooperates with the temperature sensors 1895 and 1896 that are installed in shell 1820 outsides was closed opening 1851 and 1852, makes the data of data storage device 1810a~1810e and storage fire-resistant.
Figure 37 representes to place in the shell 1920 alternative embodiment of data storage device 1910.Entry 1931 cooperates with fan 1940 with exit passageway 1932, makes surrounding air pass through shell 1920 circulations.As stated; Movable opening 1951 and 1952 is taken the photograph and is put near path 1931 and 1932 places; And when fire is arranged, seal these paths, the Special Significance of the enforcement of Figure 37 be that the fin 1975 of fin is installed on the data storage device 1910 and with latter's thermo-contact.In addition, this has the fin 1975 of fin to form the part of the waterproof case 1970 of the data storage device 1910 that surrounds the inner space that is positioned at refractory outer cover 1920.There are the fin 1975 and the border between the bag 1970 of fin can use various water-fast bonding agents or ultrasonic bonding sealing.Bag 1970 the most handy elastomer coating 1971 coatings of metal.
Embodiment shown in Figure 38 comprises the refractory outer cover 2020 of placing data storage device 2010.With the foregoing description relatively, significantly difference is, the water-fast bag 2070 that surrounds data storage device 2010 is for comprising top 2071, the canister of the rigidity of bottom 2072 and the gasket seal 2073 that around the periphery of canister 2070, extends.Embodiment shown in Figure 38 comprises the firm canister that surrounds data storage device 2010.This canister is water-fast, and can outwards conduct heat from data storage device 2010, but also can be in profound water, promptly reaches in 1000 feet the water water-fast well deeply.
Figure 39 representes to place another shell 2120 of data storage device 2110.Except the bag 2170 of the watertight case that forms data storage device 2110 be comprise top 2171 and bottom 2172 fin is arranged with the metal shell of extruding, same as the previously described embodiments.Gasket seal 2175 extends around the neighboring of bag or container 2170, forms the watertight case firm and that fin is arranged of data storage device 2110.As stated, through with fan 2140, entry 2131 cooperates with exit passageway 2132, uses fin 2180 can increase from data storage device to the inner chamber of shell 2120 and the efficient of conducting heat to outside ambient atmosphere.
Figure 40 representes to place the shell 2220 of data storage device 2210.In this embodiment, have fin waterproof extruding the bag or shell 2270 be respectively equipped with upper and lower 2271 and 2272.Gasket seal 2275 extends around the periphery of bag or container 2270, forms the firm and effective watertight case of data storage device 2210.All these is in the inner space of refractory outer cover 2220.Perforated plate 2290 forms the upper surface of shell 2220 and comprises a series of perforation 2291.The perforated plate 2290 of coating expansion coating 2295 is added on the surface of perforated plate 2290, and expands and this perforation 2291 of sealing in being exposed to fire the time, thereby forms highly refractory shell.Fan 2240 is installed in the upper surface place near the bag 2270 that fin is arranged, and forces air to discharge through perforated plate 2290, to increase from data storage device 2210 heat transfer of atmosphere towards periphery.Optional fan inside 2245 is located in the bag or container 2270 of waterproof, to increase from the heat transfer of data storage device 2210 through bag 2270.
Figure 41 and Figure 42 represent to place the refractory outer cover 2320 of data storage device 2310.In sidewall 2321, be provided with ventilation channel 2331.This ventilation channel 2331 has tapering, and is truncated cone, makes its internal diameter bigger than the diameter of the outer edge of shell 2320.Movable opening 2351 has the O shape circle 2381 that around the periphery of opening 2351, extends.Shown in figure 42, make opening 2351 be seated in 2331 last times of path, the water-fast sealing that O type circle 2381 forms on the ventilation channels 2331 as fire or water.
E) have the shell of the molded gypsum of integrally molded part supporting
Figure 43~46 expressions are molded by gypsum (but or other fire-resistant moulding materials), have the shell of integrally molded part supporting.Be described below,, can obtain shell cheaply through molded by gypsum or other inexpensive mouldable refractory materials.Best, this shell mould is processed two parts that separate.Best, the supporting of hard disk drive, any air conveying parts and draught fan integrally are shaped as the molded gypsum part of final shell.In addition, opening supporting and opening driving spring also are integrally molded in the shell.In addition, in the product of accomplishing, finally utilize, make air flow through any fixing molded gypsum part of the integrally molded one-tenth of ventilation channel of the outer wall of shell.Through the molded gypsum that has the integral body supporting of these parts, independent union piece need be provided, with the various parts of accomplishing of shell internal support.Through reducing needs, can reduce the cost and the work of part greatly to these independent parts.As using result of the present invention, can obtain the few shell cheaply of number of parts.
Figure 43 representes molded according to the present invention, " anti-disaster " shell 2420 that is fully assembled.In this shell, place hard disk drive 2410.Vent air gets in the shell through the entry 2431 that in sidewall 2421, forms, and discharges through the exit passageway 2432 that in the sidewall 2421 of shell 2420, forms.As being in No. 11/112552 the application more fully the explanation at above-mentioned sequence number, opening 2451 is installed near exit passageway 2432 places, and is urged to its detent position by spring 2471.Fan 2440 makes surrounding air pass through path 2431 on one's own initiative and inwardly sucks, and in data storage device 2410 cocycles of work, and discharges through exit passageway 2432.
Figure 44 representes to process two the part 2420a and the 2420b of molding outer casing 2420.These two part 2420a and 2420b comprise the molded part supporting of hard disk drive 2410, fan 2440, opening driving spring 2471.All these is illustrated among Figure 43.Totally be shown 2490 molded supporting supporting hard disk drive 2410.Supporting 2490 comprises that first is essentially the part of C shape, and this part comprises molded pawl 2491 in top and the molded pawl 2492 in bottom.Pawl 2491 and 2492 is separated by a long path 2493, makes pawl 2491 and 2492 that elasticity to a certain degree arranged.Utilize the elasticity between pawl 2491 and 2492, apply little pressure, hard disk drive 2410 is fixed on its rigging position.Molded supporting 2490 also comprises second supporting that is essentially the C type with dewclaw 2495 and lower claw 2496. Pawl 2495 and 2496 is separated by an elongated slot 2497, and this groove makes between pawl 2495 and 2496 flexible.Another kind of mode does, do not illustrate among the figure, and this pawl can be rigidity, and hard disk drive can use flexible sealing gasket chip material supporting, to absorb the position of impact load and fixed drive 2410.
Totally be shown the supporting of 2400 fan and comprise a series of 4 molded lugs 2401~2404. Lug 2401 and 2402 is located on the upper surface of pawl 2491 and above that and forms.Last molding part 2420a has and fan bearing lug 2401 and the 2402 opposite lugs of placing 2403 and 2404.The purpose of lug 2401~2404 is in its housing (not shown), holds fan 2440 slidably, and all these is illustrated among Figure 43.
Last molding part 2420a also comprises and totally is shown 2460 moulded openings and split ring supporting.Supporting 2460 comprises a downward extension 2461, in this part, forms a recessed spring base 2462.Spring base 2462 is a cylindrical recess simply, and it is equipped with spring 2471 (seeing Figure 43), makes when detection has fire, and opening 2451 is closed.
As the part of shell 2420, integrally molded hard disk drive supporting 2490, the meaning of fan supporting 2400, opening and split ring supporting 2460 is not for needing hard disk drive, fan, the union piece of opening and split ring.These union pieces are expression and explanation in No. 11/112552 the application at sequence number.Should be appreciated that being essentially reverse V-shaped strapping wires 2428 and 2429 and can being positioned at other positions that are not near roof shown in Figure 44 2421 places between the model upper and lower.
Another aspect of the present invention is can formation integrally in lower mould part 2420b such as the ventilation channel of 2,432 one types of entry 2431 and exit passageways.Unitarily molded ventilation channel can avoid forming through solid mold walls the time and the cost of these paths, and can use quite tortuous passage, shown in entry 2431.In solid mold walls, make difficulty of tortuous passage.
Figure 45 and Figure 46 represent that hard disk drive 2510 is installed in the embodiment in the molded shell 2520.Figure 45 and embodiment shown in Figure 46 use and passive diffluence cooling hard disk drive 2510 promptly do not used fan, and be such among the embodiment shown in Figure 43 and 44.Shell 2520 has last molding part 2520a and lower mould part 2520b.Access road 2531 can make air upwards flow through hard disk drive 2510.Air is only crossed hard disk drive 2510 by convection current and is outwards flowed out through drain passageway 2532. Solenoid 2571 and 2572 has movable opening 2551 and 2552 respectively.As at above-mentioned sequence number be in No. 11/112552 the application said more fully, when detection had fire, solenoid 2571 and 2572 started, opening 2551 and 2552 is closed.
Figure 46 representes molded gypsum (or other refractory materials) part 2520a and 2520b.Strapping wires between this two part are near the reverse V-shaped line 2528 and 2529 that is essentially that is positioned at the roof 2521. Ventilation channel 2531 and 2532 is a molded circular port in two part 2520a and 2520b respectively.Molded solenoid and outlet opening supporting 2539 are molded as the integral part of top 2520a.The lip that projects upwards 2533 of a circle extends around outlet opening 2532.Lip 2533 forms the tortuous passageway of air-out.The part of supporting arm 2538 integrally molded one-tenth bottom 2520b also has two purposes.The surperficial above that 2538a upper support of supporting arm 2538 hard disk drive 2510, and at its lower surface 2538b upper support inlet opening 2551 and solenoid 2571.Arm 2538 flows air around hard disk drive 2510, so that transmit and remove the heat of maximum from hard disk drive 2510.Opening 2551 and 2552 (not illustrating among Figure 46) is molded by gypsum or other refractory materials individually.
F) utilize free convection to cool off the shell of data storage device
Figure 47~66 expressions utilize the embodiments of the invention of " free convection " cooling digital data storage unit.In other words, do not use fan.
Figure 47 representes to have hinged top 2623, and when not having fire, this top remains on release position shown in Figure 47 by melting part 2671.When fire is arranged, melting part 2671 fusing and make and cover 2623 and close.Hard disk drive 2610 is installed in the shell 2620.In the lower wall 2624 of shell 2620, form the entry 2631 that ventilates.Movable opening 2651 is placed near opening 2637 places, and remains on the release position by melting part 2672.When not having fire, surrounding air upwards flows through the inside of shell 2620 through " free convection " through entry 2631, and outwards flows out at the top of the rising of shell 2620 or below covering 2623.When fire was arranged, melting part 2671 and 2672 fusings made and covers 2623 and close with opening 2651, the top of can 2620 and entry 2631, and form hard disk drive 2610 and the extremely fireproof shell of the data of storing.
Figure 48 representes shell 2720, will cover when it is connected and works as melting part 2771 fusing except the spring 2781 and the lid 2723 of shell 2,720 2723 pull to down, identical with shell 2620 shown in Figure 47.
Figure 49 and Figure 50 represent to place another " free convection " shell 2820 of data storage device 2810.In this embodiment, lid or cap 2823 remain on rising or release position by solenoid 2871 and as an entrance and exit ventilation channel.In the inner space of the free inside inflow shell 2820 of air, and below lid that raises or cap 2823, upwards with the heat of outwards taking away by data storage device 2810 generations.Shown in figure 50, when fire was arranged, temperature sensor 2880 made solenoid 2871 withdrawals, and lid or cap 2823 are closed, and forms highly refractory shell.
Figure 51 and Figure 52 represent that shell 2920 is included in the modification of entry 2931 that forms on the sidewall 2921 and the exit passageway 2932 that on sidewall 2921, forms another " free convection ". Slidably opening 2951 and 2952 is installed near entrance and exit path place, and remains on the release position above the path respectively by melting part 2971 and 2972.Shown in Figure 52, when fire was arranged, part 2971 and 2972 fusings only utilized gravity, make opening 2951 and 2952 move to its off-position, path 2931 and 2932 sealings at this moment, and form refractory outer cover, with protected data storage device 2910 and content thereof.
Figure 53 and Figure 54 represent to have on sidewall 3021 entry 3031 that forms and at the roof of shell 3020 or cover the shell 3020 of the exit passageway 3032 that forms on 3024.Cooling air only flows through entry 3031 by " free convection ", passes data storage device 3010 and through discharging or exit passageway 3032 discharges.Opening 3051 and 3052 is installed near path 3031 and 3032 places.Melting part 3071 and 3072 remains on the release position shown in Figure 53 with opening.When fire was arranged, when melting part 3071 and 3072 began to melt, opening actuator 3061 and 3062 drove opening 3051 and 3052 to its off-position.The opening actuator is leaned on weight-driven, often to push opening 3051 and 3052 to its off-position by rotating the balance weight 3063 and 3064 of installing around fulcrum.When fire was arranged, balance weight 3063 and 3064 moved downward, and made corresponding opening 3051 and 3052 move to closing and complete fire-resistant position shown in Figure 54.
Figure 55 and Figure 56 represent that shell 3120 is included in the embodiment of entry 3131 that forms on the lower wall 3124 and the exit passageway 3132 that on upper wall 3123, forms.Air only by " free convection " through entry 3131, pass data storage device 3110 and discharge through outlet or drain passageway 3132. Movable opening 3151 and 3152 is installed near path 3131 and 3132 places, and remains on its release position by melting part 3171 and 3172.Shown in Figure 56, when fire was arranged, when melting part 3171 and 3172 fusings, spring 3161 and 3162 was pushed into its off-position with opening 3151 and 3152.
Figure 57 and Figure 58 represent to have the bottom along sidewall 3221,3222 and end wall 3226, the shell 3220 of the entry array 3231a~3231f of formation.Equally, on entry 3231a~3231f and near roof 3221 places, on sidewall and end wall, form outlet or drain passageway 3232a~3232f.Cooling air only utilizes " free convection " to flow through entry, passes data storage device 3210 and outwards flows out through drain passageway.Each entrance and exit path activates coated liner with the temperature that is shown 3241.For the sake of clarity, only at path 3231a, 3231f representes among 3232a and the 3232f.Shown in Figure 58, when fire was arranged, temperature activation coating upwards expanded or the formation foam with downward, to seal each corresponding blow vent.
Figure 59 and Figure 60 represent that shell comprises the shell 3320 of movable top 3320a and static bottom 3320b.Top 3320a can move between the primary importance shown in Figure 59, and at this moment entry 3331a~3331f opens and allows air inwardly to flow, and passes data storage device 3310.Equally, in this primary importance of two part 3320a and 3320b, discharge or exit passageway 3332a~3332f is open.The 3320a of first of shell 3320 remains on first or uppermost position in fig-ure shown in its Figure 59 by melting part 3371 and 3372.When fire was arranged, fusible part 3371 and 3372 fusings allowed top to move to the second place that all the entrance and exit path 3331a~f shown in Figure 60 and 3332a~f close.When fire is arranged, after fusible part 3371 and 3372 begins fusing, top 3320a only by gravitational motion to second shown in Figure 60 or off-position.
Figure 61 and Figure 62 represent the shell 3420 that entry 3431 forms on its lid or roof 3424 at formation and outlet or drain passageway 3432 on its lower wall 3423.Cooling air only flows through access road 3431 by " free convection ", upwards and pass data storage device 3410, and outwards flows out through discharge or the exit passageway 3432 at shell 3420 tops. Movable opening 3451 and 3452 is placed respectively near entrance and exit path 3431 and 3432 and locate above it, and remains on the release position by solenoid 3471 and 3472.Shown in Figure 62, temperature sensor 3480 activates two solenoids 3471 and 3472 under predetermined temperature, opening is closed.Opening 3552 is installed on the outside of shell 3420, and opening 3451 is installed in shell 3420 inside.
Figure 63 and Figure 64 represent that shell 3520 is included in it down or another embodiment of entry 3531 that forms on the diapire 3523 and the exit passageway 3532 of formation above that or on the roof 3524.In this embodiment, opening 3551 and 3552 is installed in shell 3520 inside respectively, near path 3531 and 3532 places.Two openings remain on its release position by melting part 3571 and 3572.When fire was arranged, when melting part 3571 and 3572 fusings, harness motion was to off-position.Opening 3551 is closed by gravity, and opening 2552 moves to off-position by spring 3561.
Figure 65 and Figure 66 represent to have the shell 3620 that entry 3631 forms on the top of shell 3620 or upper wall 3624 at formation and outlet or drain passageway 3632 on the following or diapire 3623 of shell 3620. Movable opening 3651 and 3652 is installed near opening 3631 and 3632 and locate above it.Opening 3652 is installed in above the roof 3624.In this embodiment, two openings 3651 and 3652 remain on the release position by melting part 3671 and 3672 respectively.When fire is arranged, melting part 3671 and 3672 fusions, and opening only closes to the position shown in Figure 66 by gravity.
G) other embodiment
Figure 67 and Figure 68 represent to comprise the shell of the various characteristics of above-mentioned shell.Inlet ventilation channel 3731 forms on the following or diapire 3723 of shell 3720.A plurality of drain passageways 3732 form on the perforated plate 3770 of top that forms shell 3720 or lid.The air that one group of perforation 3771 on plate 3770 allows to flow through data storage device 3710 is discharged.Be installed in shell 3720 inner and near the fan 3740 of data storage device 3710 by the strong hand through enter the mouth 3731 with pass data storage device 3710 and exit passageway 3732 suction air through forming by the through hole on the plate 3770.Plate 3770 usefulness expansion coatings 3775 cover.When fire was arranged, the expansion coating expanded and is sealed in the perforation 3771 on the plate 3770.Simultaneously, opening 3751 is remained on melting part 3773 fusings of the release position shown in Figure 67, and opening 3751 is closed, form the refractory outer cover shown in Figure 68.
Figure 69 and Figure 70 represent to place the shell 3820 of digital data storage unit 3810.The meaning of this embodiment is, except entry 3831 and exit passageway 3832, it comprises and is used for receiving and to the 3rd path 3833 of the cable 3880 of its transferring electric power and data from data storage device 3810.Perforated plate 3770a, 3770b and 3770c pass ventilation channel 3831,3832 and cable through 3833 respectively.Each perforated plate 3770a~c all uses inflated insert (for the sake of clarity, not illustrating among Figure 69) to cover.Shown in Figure 70, in the time of in being exposed to fire, the last inflated insert of perforated plate 3770a~c expands and blocks opening 3831,3832 and 3833.
Above-mentioned explanation of the present invention is in order to represent and illustrative purposes, rather than maybe will the present invention be restricted to described precise forms completely.Consider that above explanation can do to improve and change.Select and illustrative embodiment is for principle of the present invention and practical application thereof are described, thereby make the technical staff can use each embodiment of the present invention and various improvement best.Scope of the present invention is confirmed by claims.