Accompanying drawing explanation
Figure 1A is integrated machine cabinet outline drawing.
Figure 1B is the front view of integrated machine cabinet installation diagram.
Fig. 1 C is the rear view of integrated machine cabinet installation diagram.
Fig. 1 D is the profile in C-C cross section in Fig. 1 C.
Fig. 1 E is along B-B cross section " base " profile in Fig. 1 C.
Fig. 1 F is along A-A cross section " footstock " profile in Fig. 1 C.
Fig. 2 is multiple stage rack and frame scheme of installation.
Fig. 3 is square nut sub-assembly.
Fig. 4 is upward wiring cabling schematic diagram.
Fig. 5 is blower fan sub-assembly.
Fig. 6 is base air inlet (adjustable distinguished and admirable size).
Fig. 7 is power distributor harness.
Fig. 8 is grade bar and the adjustable installation of dividing plate.
Fig. 9 is grade bar and the adjustable installation of dividing plate.
Figure 10 be grounding copper bar installation be connected.
Figure 11 is power module A.
Figure 12 is power module A winding diagram.
Figure 13 is power module B.
Figure 14 is power module B winding diagram.
Figure 15 A is the invention product design stereogram.
Figure 15 B is the invention product design front view.
Figure 15 C is the invention product design end view.
Figure 16 A is the invention interiors of products structural perspective.
Figure 16 B is the invention interiors of products structural front view.
Figure 17 A is the stereogram of the loose routing of the invention.
Figure 17 B is the front view of the loose routing of the invention.
Figure 18 A is power distribution unit (36 tunnels export) the profile front view of the invention.
Figure 18 B is the partial enlarged drawing of a-quadrant in Figure 18 A.
Figure 19 AA is power distribution unit (the 36 tunnels export) structural perspective of the invention.
The partial enlarged drawing of the a-quadrant in Figure 19 AB Figure 19 AA.
Figure 19 BA is power distribution unit (the 36 tunnels export) structural front view of the invention.
Figure 19 BB is the partial enlarged drawing of a-quadrant in Figure 19 BA.
Figure 19 CA is power distribution unit (36 tunnels export) the structure side view of the invention.
Figure 19 CB is the partial enlarged drawing of the a-quadrant in Figure 19 CA.
Figure 19 D is power distribution unit (the 36 tunnels export) rearview of the invention.
Figure 19 E is power distribution unit (the 36 tunnels export) vertical view of the invention.
Figure 20 AA is the profile front view of power distribution unit (36 tunnels export) total air switch mounting panel of the invention.
Figure 20 AB is the profile lateral plan of power distribution unit (36 tunnels export) total air switch mounting panel of the invention.
Figure 20 BA is the profile front view of power distribution unit (36 tunnels export) point air switch mounting panel of the invention.
Figure 20 BB is the profile lateral plan of power distribution unit (36 tunnels export) point air switch mounting panel of the invention.
Figure 20 C is the profile stereogram of power distribution unit (the 36 tunnels export) socket of the invention.
Figure 20 D is the lateral plan of power distribution unit (the 36 tunnels export) socket of the invention.
Figure 20 EA is the stereogram of power distribution unit (36 tunnels export) the jack connector mouth of the invention.
Figure 20 EB is the partial enlarged drawing of a-quadrant in Figure 20 EA.
Figure 20 FA is the stereogram of power distribution unit (the 36 tunnels export) socket of the invention.
Figure 20 FB is the front view of power distribution unit (the 36 tunnels export) socket of the invention.
Figure 21 A is the lettering schematic diagram of the invention power distribution unit (36 tunnels export).
Figure 21 B is the partial enlarged drawing in the I region in Figure 21 A.
Figure 21 C is the lettering schematic diagram of the invention power distribution unit (36 tunnels export).
Figure 21 D is the partial enlarged drawing in the II region in Figure 21 C.
Figure 22 A is the front elevation of the profile of the invention mobile column.
Figure 22 B is the partial enlarged drawing of a-quadrant in Figure 22 A.
Figure 22 C is the side view of the profile of the invention mobile column.
Figure 22 D is the partial enlarged drawing in B region in Figure 22 C.
Figure 22 E is the upward view of the profile of the invention mobile column.
Figure 23 A is the side view of the profile of the 2U panel of the invention.
Figure 23 B is the front elevation of the profile of the 2U panel of the invention.
Figure 23 C is the upward view of the profile of the 2U panel of the invention.
Figure 24 A is the side view of the profile of the 1U panel of the invention.
Figure 24 B is the front elevation of the profile of the 1U panel of the invention.
Figure 24 C is the upward view of the profile of the 1U panel of the invention.
Figure 25 A is the side view of the profile of the middle mobile column of the invention.
Figure 25 B is the front elevation of the profile of the middle mobile column of the invention.
Figure 25 C is the upward view of the profile of the middle mobile column of the invention.
Figure 25 D is the partial enlarged drawing of a-quadrant in Figure 25 B.
Figure 26 A is the mobile column lettering figure of the invention.Mobile column is bottom-up to be printed successively by " U ".
Figure 26 B is the partial enlarged drawing in B region in Figure 26 A.
Figure 27 A is the bottom wind passage mouth lettering figure of the invention.
Figure 27 B is the partial enlarged drawing of a-quadrant in Figure 27 A.
Figure 27 C is the partial enlarged drawing in B region in Figure 27 B.
Figure 28 A is the wiring schematic diagram side view of the PDU power module of the invention.
Figure 28 B is the wiring schematic diagram front elevation of the PDU power module of the invention.
Figure 28 C is the wiring schematic diagram of the PDU power module of the invention.
Figure 29 is the wiring partial enlarged drawing of the PDU power module of the invention.
Figure 30 AA is the back door outline drawing of the invention.
Figure 30 AB is the partial enlarged drawing in I region in Figure 30 AA.
Figure 30 B is the back door vertical view of the invention.
Figure 31 is the rack of the invention and cabinet schematic diagram.
Figure 32 be the invention front and back air intake rack and up and down air intake rack comprise cold combination of channels project organization schematic diagram.
Figure 33 is the front and back air intake rack of the invention and the contour structures schematic diagram of upper and lower air intake rack.
Figure 34 A is the structural representation of the rack of air intake up and down of the invention.
Figure 34 B is the top board figure of the rack of air intake up and down of the invention.
Figure 34 C is the top board figure of the rack of air intake up and down of the invention.
Figure 34 D is the base plate figure of the rack of air intake up and down of the invention.
Figure 35 is the appearance schematic diagram of the cold combination of channels design of the rack of the invention.
Wherein, Reference numeral implication is:
1---binding plate; 2---side door; 3---electrical power distribution module; 4---L-type support (quantity can be selected according to client); 5---dividing plate (selectable number); 6---grounding copper bar; 7---supply socket; 8---mobile column; 9---19 inches of 24 RJ45 interface distributing frames installed; 10---filler panel (high 1U/2U/4U); 11---mounting seat; 12---Qianmen (singly open or twoly open optional, opening mesh optional); 13---wire hole; 14---fan; 15---back door (singly open or twoly open optional, opening mesh optional); 16---air regulating board; 17---air inlet; 18---the external ground wire of rack; 19---equipment ground line; 20---frame; 21---suspension ring; 22---power distribution unit; 23---at the bottom of power slot; 24---upper cover plate; 25---lower cover; 26---total air switch; 27---point air switch; 28---binding post; 29---socket; 30---jack mounting plates; 31---mesh area; 32---top cabinet point; 33---bottom cabinet point; 34---network cabinet; 35---machine pier; 36---cold air duct door; 37---rack arranges; 38---cabinet front; 39---cool wind hood; 40---rear of cabinet; 41---advancing air passage; 42---lower air intake passage; 43---cabling is taken turns; 44---column; 45---upper air inlet passage; 46---cabinet top exhaust outlet; 47---cabinet top incoming line; 48---column is installed; 49---laminate; 50---kuppe (lower air intake rack); 51---air inlet (lower air intake rack) on front side of rack; 52---floor air supply register; 53---side door isolated location (toughened glass fire resistant doorsets); 54---top isolated location/window (supporting magnetic attraction device); 55---the fire-retardant polymethyl methacrylate in top; 56---inner prewarning unit; 57---close cold passage (cold drop); 58---the passage of heat; 59---frame installation unit; 60---communication cabinet; 61---first cabinet of each row; 62---exhaust outlet; 6301---the first incoming line; 6302---the second incoming line; 64---fan mouth position; 6501---the 3rd incoming line; 6502---the 4th incoming line; 66---air inlet; 67---ruler; 68---slip lid border; 69---rack label is deposited; 70---mesh area; 71---four road main lines, control 5,5,4 respectively, 4 air switches and socket.
Embodiment
Below in conjunction with specific embodiment, the invention will be further described.
As shown in Figure 1A, Figure 1B, Fig. 1 C, Fig. 1 D, Fig. 1 E and Fig. 1 F, 1 is binding plate; 2 is side door; 3 is electrical power distribution module; 4 is L-type support (selectable number); 5 is dividing plate (selectable number); 6 is grounding copper bar; 7 is supply socket; 8 is mobile column; 9 is 19 inches of 24 RJ45 interface distributing frames installed; 10 is filler panel (high 1U/2U/4U), and that wherein 1U represents is 44.45mm; 11 is mounting seat; Rack of the present invention adopts quality steel plate, and rigidity is strong; Surface degreasing, antirust phosphating, plastic-blasting process, good looking appearance; All selectable units are 19 inch standard and install, and be applicable to any 19 inch standard frames, rack is installed.
In Fig. 1 C, E point is 2200 millimeters to F point horizontal range; F point is 150 millimeters to G point horizontal range.
In Fig. 1 E, A point is 600 millimeters to B point horizontal range; C point is 550 millimeters to D point horizontal range; E point is 800 millimeters to F point horizontal range; G point is 650 millimeters to H point horizontal range; Base installing hole is of a size of 650x550mm.
In Fig. 1 F, A point is 416 millimeters to B point horizontal range; C point is 240 millimeters to D point horizontal range; E point is 356 millimeters to F point horizontal range; G point is 290 millimeters to H point horizontal range.
Be illustrated in figure 2 and the hard-wired schematic diagram of cabinet: when multiple cabinet is laid side by side, also cabinet fixture can be used to interfix, as shown in Figure 2.
Be illustrated in figure 3 installation and the cabling distribution thereof of package (i.e. client install device server): the form that package can be installed with 19 inches to be installed in rack above on two supports.First the nut in square nut assembly is installed in mounting bracket U square hole, then equipment installing hole is corresponded to this hole, load onto screw.Package installation site can up and down from Row sum-equal matrix.
Various data wire is upward wiring, also can downward cabling; Inner at integrated machine cabinet, device power supply (DPS) line and various data wire can be pricked on binding plate or by the reason coil holder cabling on trough and support, as shown in Figure 4.
The installation of the interior annex of rack is as follows:
The installation of fan cooled module: it is inner that fan cooled module (apolegamy part) is installed on rack top frame, its front end with control switch, as shown in Figure 5.When needs more ventilating fan time, can unscrew from by the hold-down screw of blower fan sub-assembly, the connecting line of blower fan is cut off, then new blower fan is installed, the replacing of blower fan can be realized.
Integrated machine cabinet can be divided into three kinds according to air inlet mode difference, is lower air intake, upper air inlet and advancing air respectively, and air inlet adjustable distinguished and admirable size during lower air intake, back door adopts highdensity mesh door structure, as shown in Figure 6.
Installing and using of power distributor: power distributor is optional component, can be installed on rack posterior bracket arbitrary height position, as shown in Figure 7.The every module of this power distributor is containing 6 consents, and every jack is maximum provides 220V, the AC power of 10A.
The mounting and adjusting of fixed gear bar and dividing plate: first shelves bar is placed on the suitable height of mobile column, then is fixed with square nut assembly, is then placed in stationary barrier on grade bar; The computer equipments such as server can directly be positioned on grade bar by user, also can be placed on dividing plate by equipment, and user can suitably adjust its height and position according to the service condition of equipment, as shown in Figure 8,9.
Installing and using of grounding copper bar: grounding copper bar is arranged on the side of rack, is insulated by insulation assembly and rack cabinet.Copper bar is equipped with some M4 earthing screws, when equipment needs ground connection, its earth connection is connected with earthing screw, as shown in Figure 10.Grounding copper bar need connect with machine room or other external ground line.
PDU power module is installed, and PDU power module adopts two-way power supply, and a road is main power source (A road), and a road is stand-by power supply (B road), and every road adopts a road master switch to control respectively, and branch circuit adopts multichannel sky to open control.
As shown in figure 11, PDU power module adopts sky to open and installs respectively with socket, adopts 19 inches of installations, can be directly installed on mobile column, be divided into A road and B road, and every road adopts 1 main 9 along separate routes.Its winding diagram as shown in figure 12.
As shown in figure 13, such power acquisition sky is opened integrated with socket, be divided into A road and B road, every road adopts 1 main 18 along separate routes, and 18 road sky open and control a socket respectively, wiring is divided into four groups, is respectively 01 group, 02 group, 03 group and 04 group, all adopt parallel way to carry out wiring, its winding diagram as shown in figure 14.
Present networks rack should be stored in well-ventilated, dry warehouse, and the corrosive gas that do not have around it exists, and storage temperature is-25 ~+25 DEG C.The environmental condition of present networks rack: working temperature :-5 DEG C ~+40 DEG C; Relative humidity :≤85%(+30 DEG C); Atmospheric pressure: 70kPa ~ 106kPa.
This rack comprises frame support body, back door, side door, power distribution unit, mobile column, middle mobile column, L-type support, suspension ring.Wherein power distribution unit comprise at the bottom of power slot, upper cover plate, lower cover, total air switch, point air switch, binding post, socket, jack mounting plates, total air switch mounting panel, point air switch mounting panel, grounding copper bar, blind plate, kuppe.Make fixing, ground connection, the input power of server according to cabinet structure according to the present invention design, the operation such as coiling, connection, scheduling, distribution, test of data cable is all reliably very convenient.
Product adopts integration, Demountable, can regulate the installation site of mobile column according to the degree of depth of the server of different manufacturers accurately.
Two, technical requirement
1, parameter
Air switch
Rated current scope: 1A ~ 63A
Operating surface: front, the back side
Cable:
Core number: 2 inputs, 36 tunnels export, and are divided into active and standby two-way;
Overall dimension: casing: 600 millimeters of (wide) x2000 millimeter (height) x600 millimeter (deeply);
Network cabinet net weight: about double centner.
2, service condition
Working temperature :-40 degrees Celsius ~+55 degrees Celsius;
Relative humidity: when being not more than 85%(+30 degree Celsius);
Atmospheric pressure: 70kPa ~ 106kPa;
Storage temperatures :-40 degrees Celsius ~+80 degrees Celsius.
3, main performance index
(1) chamber door is firmly smooth, and chamber door opening angle is as many as 110 degree.Casing is unenclosed construction, mesh door of singly practicing backdoorism, before can open wide, and open and close flexibility and reliability, there is good destruction-proof function.
(2) insulate between optical cable ground device and casing in casing, insulation resistance>=2 × 10
4Ω, test voltage DC500V ± 50V.
(3) casing metallic member should interconnect and be connected to the earth connection that sectional area is not less than (not comprising connecting hole) 6 square millimeters, and grounding connection point should have ground connection mark clearly.Contact resistance between any two points is not less than 0.1 Ω.
(4) binding post meets the requirement specified in following standard: terminals subgroup meets the related request of GB14048.7 and GB14048.8, selects band lug plate (copper cash erbium), buckle, wire connection cavity etc. prevent screw-type (screw bolt-type, the pillar etc.) binding post of the end of a thread loose components.Related request comprises:
---terminal can conducting reliable with wire, and is fastenedly connected, not easily loosens, and can keep necessary contact for a long time between wire;
---terminal electric conductivity is good, and mechanical resistant stress (pressure, torsion etc.) is tired, wear-resistant, corrosion resistant;
---terminal and terminal board is safe and reliable, handled easily, because part (as packing ring, nut etc.) falls and causes the accident when can to prevent between the end of a thread touching and wiring mutually preferably;
---that terminal has is clear, significantly identify; Terminal peripheral hardware safety cover plate and obviously identifying, prevents misoperation and electric shock;
---terminal connections parts (as bolt, pad, copper nose etc.) configure complete;
---Alternating Current Unit, each terminal along separate routes and connect the specified sectional area of cable and be 2.5 square millimeters; Put in order be followed successively by from left to right zero (N), phase (L), (PE).
(5) each performance index of air switch
It is 230V/400V that this small air switch is applicable to alternating current-direct current 50HZ/60HZ rated voltage; the rated voltage of always/point air switch can regulate according to demand; generally lower than in 63A circuit; or direct current 220V; the effect of overload and short-circuit protection can be played, also can do transformation as the infrequently operation of circuit under normal circumstances.
Meet standard: the related request of GB10963.2 and IEC60898-2.
The protective feature (referring to following table) of overcurrent
Alternating-current parameter
Table 1:
(6) socket
Pattern: C9/C10 two-stage is with ground single-phase;
Operating surface: front;
Wiring face: the back side;
Installed surface: side cassette;
Power line:
Core number: general use multiply power line, at least can meet continuing of 6 square millimeters of power lines.
Overall dimension: casing: 42mm*42mm*36mm;
Socket net weight: about 30g.
Below in conjunction with accompanying drawing, the invention is described further.
Figure 15 A, Figure 15 B and Figure 15 C are the invention product design schematic diagram.As shown in Figure 15 A, Figure 15 B and Figure 15 C, the invention network cabinet comprises frame support body, back door, side door.Its mid frame is formed as follows: underframe four reinforcement columns in top are fixed, and box house adopts six roots of sensation column to strengthen left and right respectively, thus makes support body solid and reliable.Back door adopts repeatedly bending and molding bending to be arc, thus can make the intensity that can also increase door when reducing thickness of slab, significantly reduces the weight of support body, makes transport more light.
Welding manner for whole frame has electrode arc welding, gas shielded arc welding, oxygen welding, argon arc welding etc.Electrode arc welding: mainly to the spot welding of chassis body and the welding of assembling fittings.Gas shielded arc welding: mainly to comprehensive welding and the repair welding of frame main body.Oxygen welding: mainly the welding of the broken Origuchi at end of door plate angle and the heating of part shelves material more directly process.Argon arc welding; Be mainly used in the welding of board material splice and tube at present.
In being welded of rack more directly, comparatively flat and packaging technology: produce in drawing and require that all shelves material all reach and more directly require: but observe only in the shelves material of weldering extension piece, oxygen welding neutral flame is adopted to carry out heat treated, more straight point about a minute is needed by joystick switch neutral flame heating material, reach 700-900oC, allow it naturally cool or add the cold water type of cooling to carry out more straight.In the assemble welding of complete machine shell, in order to ensure the smooth of plane, have employed one right angle rectangle steel bar, the plane as two sub-assemblies ensures size, indeformable in order to what reach after Combination Welding, is welded on by this steel bar in two planes.Effect fixation.With the such aspect of sample fix be in addition casing skeleton weldering in, in order to ensure that skeleton is right angle quadrangle, to measure the diagonal of quadrangle, be less than in 1-2mm in guarantee two catercorner length errors, carry out being welded and fixed skeleton with long steel bar, ensure that indeformable in welding process of skeleton.The installation of reveal plate: in order to avoid reveal plate is in installation process, due to various error cause not compact, strengthen install difficulty and distortion.In real work, the body frame first wanting butt welding to connect is numbered, and remeasures the actual size of each reveal plate requirement by number, and carries out the blanking of reveal plate according to the size measured.And order carries out mark by number.One_to_one corresponding installation is carried out according to this numbering again in installation process.
In Figure 15 B, A point is 2047.5 millimeters to the horizontal range of C point; B point is 2000 millimeters to the horizontal range of C point; C point is 600 millimeters to the horizontal range of D point.
In Figure 15 C, A point is 1200 millimeters to the horizontal range of B point.
Figure 16 is the invention interiors of products structural front view.Figure 17 is the loose routing schematic diagram of the invention.As shown in Figure 16 and Figure 17, the invention network cabinet comprises power distribution unit, suspension ring, mobile column, L-type support, the binding plate that 36 tunnels export further.Binding plate makes originally mixed and disorderly wiring become clear, facilitates on-the-spot operation, a guarantee that made maintenance work many.Mobile column can meet the movement before and after when equipment within machine cabinet is installed, the demand of installing space when can meet the different equipment of the different manufacturers production degree of depth.The L-type column of heavier-duty can meet the load-bearing requirements of different bearing equipment.
Figure 17 is the loose routing schematic diagram of the invention.In Figure 17 A, what A, B, C indicated is " 100% network data cable "; What D indicated is " 10% power input line and 90% network data cable ".In Figure 17 B, what A indicated is server, accesses power supply, access network data wire before it after it.
Figure 18, Figure 19 A, Figure 19 B, Figure 19 C, Figure 19 D and Figure 19 E is profile stereogram, external structure stereogram, external structure front view, external structure end view, external structure rearview, the external structure vertical view of the power distribution unit that 36 tunnels of the invention export.As shown in Figure 18, Figure 19 A, Figure 19 B, Figure 19 C, Figure 19 D and Figure 19 E, the power distribution unit that 36 tunnels export comprises total air switch, along separate routes air switch (air switch refers to the shunt circuitbreaker controlling socket along separate routes) and connecting terminal etc.Power distribution unit is divided into 2 tunnel inputs, and every road is that 18 tunnels export.Ground wire is independent detachable and removable binding post.
In Figure 18 A, B point is 157.5 millimeters to C point horizontal range; C point is 1949 millimeters to D point horizontal range; Wherein the partial enlarged drawing of a-quadrant is shown in Figure 18 B.
In Figure 19 C, B point is 56 millimeters to C point horizontal range; B point is 76.3 millimeters to D point horizontal range; Wherein the partial enlarged drawing of a-quadrant is shown in Figure 19 CB.
In Figure 19 E, A point is 162 millimeters to C point horizontal range; B point is 56 millimeters to C point horizontal range.
Figure 20 AA ~ 20FB is each view and the relative dimensions of air switch mount pad of the present invention and socket.Mount pad is the uniform sizes that current domestic air switch is installed, can according to demand according to the corresponding length of the size cut on figure for installing air switch.Figure 20 C is the profile stereogram of power distribution unit (the 36 tunnels export) socket of the invention.Figure 20 FA is the stereogram of power distribution unit (the 36 tunnels export) socket of the invention.Figure 20 FB is the front view of power distribution unit (the 36 tunnels export) socket of the invention.
In Figure 20 AA, A point is 135 millimeters to C point horizontal range; B point is 35 millimeters to C point horizontal range.
In Figure 20 AB, A point is 6 millimeters to B point horizontal range; C point is 25 millimeters to D point horizontal range; A point is 35 millimeters to E point horizontal range.
In Figure 20 BA, A point is 45 millimeters to B point horizontal range; B point is 35 millimeters to C point horizontal range.
In Figure 20 BB, A point is 1.2 millimeters to F point horizontal range; A point is 6 millimeters to D point horizontal range; A point is 35 millimeters to the horizontal range of B point; E point is 25 millimeters to the horizontal range of C point.
In Figure 20 D, A point is 26 millimeters to D point horizontal range; E point is 42 millimeters to B point horizontal range; C point is 36 millimeters to D point horizontal range.
In Figure 20 EA, C point is 1 millimeter to D point horizontal range; Wherein the enlarged drawing of a-quadrant is shown in Figure 20 EB.
Figure 20 EB is the partial enlarged drawing of a-quadrant in Figure 20 EA, and wherein, E point is 7.8 millimeters to F point horizontal range.
Figure 21 A-Figure 21 D, Figure 26 A are the mobile column lettering figure of the invention.Mobile column is bottom-up to be printed successively by " U ".Figure 26 B is the partial enlarged drawing in B region in Figure 26 A.Figure 27 A is the bottom wind passage mouth lettering figure of the invention.Figure 27 B is the partial enlarged drawing of a-quadrant in Figure 27 A.Figure 27 C is the partial enlarged drawing in B region in Figure 27 B.
Figure 26 A to Figure 27 C is three lettering figure of the present invention.The lettering figure of power supply lettering figure, mobile column lettering figure and wind passage mouth.Lettering is clear accurately, print position does not offset.Just required information can be judged according to the First look of client.
In Figure 21 A-21D, power supply is divided into A and B two-way, and 18 switch-dividings are divided into 4 groups by Mei Lu 18 road switch-dividing, are respectively 01 group 5,02 group 5; 03 group 4; 04 group 4.
Figure 22 A-Figure 22 E, Figure 23 A-23C, Figure 24 A-24C and Figure 25 A-25D are the outline drawing of mobile column of the present invention, 2U panel, 1U panel and wherein mobile column.The effect that mobile column plays in frame is for permanent plant, and the effect of panel is used for well reaching the sealing effectiveness needed for client.
In Figure 22 A, C point is 700 millimeters to E point horizontal range; E point is 700 millimeters to D point horizontal range; M point is 91 millimeters to N point horizontal range.
In Figure 22 B, C point is 118.4 millimeters to D point horizontal range.
In Figure 22 C, C point is 1990 millimeters to D point horizontal range.
In Figure 22 D, A point is 24.4 millimeters to B point horizontal range; B point is 44.45 millimeters to C point horizontal range; C point is 46.45 millimeters to D point horizontal range; D point is 44.45 millimeters to E point horizontal range; F point is 31.75 millimeters to G point horizontal range; M point is 31.75 millimeters to N point horizontal range.
In Figure 22 E, A point is 10 millimeters to B point horizontal range; B point is 45 millimeters to C point horizontal range; C point is 46.5 millimeters to D point horizontal range; D point is 30 millimeters to E point horizontal range; F point is 18 millimeters to C point horizontal range.
Parts shown in Figure 22 A, Figure 22 B, Figure 22 C, Figure 22 D and Figure 22 E, installation method is, symmetrical each two pieces, and breach is installed downwards; It is 91 millimeters that blend stop breach installs aperture.
In Figure 23 A, A point is 445 millimeters to B point horizontal range.
In Figure 23 B, A point is 485 millimeters to B point horizontal range; C point is 465 millimeters to D point horizontal range; E point is 44.45 millimeters to F point horizontal range; G point is 88 millimeters to H point horizontal range; M point is 26.4 millimeters to N point horizontal range.
In Figure 23 C, A point is 8 millimeters to B point horizontal range.
In Figure 24 A, A point is 445 millimeters to B point horizontal range.
In Figure 24 B, A point is 485 millimeters to B point horizontal range; C point is 465 millimeters to D point horizontal range; E point is 43.5 millimeters to F point horizontal range.
In Figure 24 C, A point is 8 millimeters to B point horizontal range.
In Figure 25 A, A point is 1990 millimeters to B point horizontal range; A point is 18 millimeters to the horizontal range of C point.
In Figure 25 B, B point is 700 millimeters to C point horizontal range; C point is 700 millimeters to D point horizontal range.
In Figure 25 C, A point is 18 millimeters to B point horizontal range; C point is 30 millimeters to D point horizontal range; D point is 18 millimeters to E point horizontal range; F point is 26.5 millimeters to A point horizontal range.Figure 25 D is the partial enlarged drawing of a-quadrant in Figure 25 B.
Figure 28 A is the wiring schematic diagram side view of the PDU power module of the invention.Figure 28 B is the wiring schematic diagram front elevation of the PDU power module of the invention.Figure 28 C is the wiring schematic diagram of the PDU power module of the invention.
Figure 29 is the wiring partial enlarged drawing of the PDU power module of the invention.As shown in the figure, the wiring step of PDU power module is as follows:
The first step, intercepts required power line according to Len req, two ends is peelled off the length of 10 ± 2mm;
Second step, use the copper aluminium hydraulic pressed connecting pipe of 4/ 10, the power line first step cut out is nested together, and ensures to compact, and can not come off.Crimping Pliers is used to be compressed;
3rd step, by the power line access air switch crimped.Tighten the screw on air switch, guarantee that power line can not be extracted out easily.
Note: the binding post at total air switch place needs to use heat-shrink tube protection.
The wiring step of socket is as follows:
The first step, shears corresponding length as required by power line, uses wire stripping pliers power line two ends to be divested the length of 10 ± 2mm;
Second step, revolves into twisted shape by the power supply termination divested, and makes the end of a thread be unlikely to loose;
3rd step, through being prepared in advance the heat-shrinkable T bush of 3 centimeters long, simultaneously through the hole on jack connector terminal, and is tightened by two power cord wrap together, guarantees to use suitable power power line to come off;
4th step, uses electric iron, by power line firm welding, requires that scolding tin is full, evenly, can not become strand, come off;
5th step, the heat-shrinkable T bush passed before use is moved to jack connector port place, is all encased by whole pad, and uses hot baking machine heat to warm the draw, until heat-shrink tube tightens;
6th step, repeat above-mentioned steps, by three of socket Wiring ports, respectively use, the power line of red, blue, yellow look welds.
Wherein, in Figure 28 A, Figure 28 B and Figure 28 C, A(B) road power supply wiring, civil power 220V exchanges input, and civil power sky opens 32A/2P/220; In Figure 28 C, 01 group of five sky opens control five sockets, and 02 group of five sky opens control five sockets, and 03 group of four sky opens control four sockets, and 04 group of four sky opens control four sockets.
Figure 30 AA, Figure 30 AB and Figure 30 B are back door front view and the vertical view of rack of the present invention.What back door adopted is formed in mould bending technique, make a camber formula shaping, reduce the deformation coefficient of door, too increase hexagonal perforate aerated area on door, the demand that can meet its ventilation and heat in rack fully loaded situation can be met, and reach effect attractive in appearance; A point in Figure 30 AA is 536 millimeters to B point width, and B point is 1896 millimeters to C point height.A point in Figure 30 AB is 3.5 millimeters to B point length.The radius of the camber line at the A point place in Figure 30 B is 1350 millimeters, and B point is 29 millimeters to the length of C point.
Figure 31 is the also cabinet figure of the entirety of the rack of the invention.
Figure 32 be the invention front and back air intake rack and up and down air intake rack comprise cold combination of channels project organization schematic diagram.
Figure 33 is the front and back air intake rack of the invention and the contour structures schematic diagram of upper and lower air intake rack.Wherein, A point to B point is the height of rack, and its scope is 1200 ~ 2600 millimeters; B point to C point is the thickness of rack, and its scope is 600 ~ 1200 millimeters; C point to D point is the width of rack, and its scope is 600 ~ 1200 millimeters.
Figure 34 A is the structural representation of the rack of air intake up and down of the invention.Figure 34 B is the top board figure of the rack of air intake up and down of the invention.Figure 34 C is the top board figure of the rack of air intake up and down of the invention.Figure 34 D is the base plate figure of the rack of air intake up and down of the invention.
Figure 35 is the appearance schematic diagram of the cold combination of channels design of the rack of the invention.
The foregoing is only the preferred embodiment of the invention, be not limited to the present invention, all any amendments, equivalent replacement and improvement etc. made within the present invention's spirit and principle, within the protection range being all contained in the invention.