CN104661479A - Cabinet framework and cabinet structure - Google Patents
Cabinet framework and cabinet structure Download PDFInfo
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- CN104661479A CN104661479A CN201510092531.2A CN201510092531A CN104661479A CN 104661479 A CN104661479 A CN 104661479A CN 201510092531 A CN201510092531 A CN 201510092531A CN 104661479 A CN104661479 A CN 104661479A
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Abstract
A cabinet framework comprises a front frame and a rear frame, wherein each of the front frame and the rear frame is formed through mutual connection of two beam profiles and two column profiles; top corners of the front frame and the rear frame are connected through longitudinal top beams; bottom corners of the front frame and the rear frame are connected through longitudinal bottom beams; a longitudinal separation beam is fixedly connected between the column profiles on the same side of each of the front frame and the rear frame, at least three layers of longitudinal side beams are fixedly and perpendicularly connected between the column profiles on the same side, and the longitudinal separation beam is located between the longitudinal side beam on the topmost layer and the longitudinal side beam on the bottommost layer; at least two perpendicular angle gauges are fixedly connected in the length direction of each longitudinal side beam, are fixedly connected with the multiple layers of longitudinal side beams on the same side in the perpendicular direction and are located in space formed by the front frame, the rear frame, the longitudinal top beams and the longitudinal bottom beams. The invention further discloses a corresponding cabinet structure. The cabinet framework and the cabinet structure can meet the aseismatic intensity requirement of the cabinet, are simple and fast to assemble and are convenient to transport and store.
Description
Technical field
The present invention relates to technical field of electronic equipment, be specifically related to rack, particularly relate to and change tradition top frame, underframe and column and carry out assembled and cabinet structure that is that adopt two side frames and the assembled cabinet frame structure of longeron and formed by this framework.
Background technology
Rack is generally that cold-rolled steel sheet or alloy make, and is used for depositing the object of computer and related control device, can provides the protection to storage equipment, shield electromagnetic interference, also can in order, fitly alignment apparatus, conveniently carry out the maintenance work of equipment.Rack material generally adopts steel profile, the aluminium section bar and various engineering plastics etc. of sheet metal, various section configuration.The top board that the main composition of rack is cabinet framework and is connected with framework, base plate, side plate, door-plate, wherein, framework is key structure, cabinet framework comprises Integral welded structure and assembled structure, wherein, although Integral welded frame structure can ensure enough electronic equipment installation strength, but be unfavorable for the elevator conveying at long-distance transport and scene, add cost of transportation, splicing frame structure is for integral frame, be convenient to dismounting transport, but because existing splicing frame structure normally is first become to push up frame and underframe with cross beam sectional bar assembly welding by longeron, and then will frame be pushed up, underframe and the direct assembly welding of four root posts are formed, or will frame be pushed up, underframe and four root posts are by the assembled formation of corner connector, in the cabinet framework of the former assembly welding, top/underframe the volume of framework is larger, be not easy to transport, the cabinet framework that the latter adopts corner connector to assemble, although the top of framework/underframe packaging volume is little, be convenient to transport and store, but bearing capacity is lower, and assembling process is comparatively loaded down with trivial details, and these two kinds of splicing frame structures, the slenderness ratio of equal column has higher requirements, column cross section can not be too little, and require high with the johning knot chalaza of top/underframe, multiaspect need be adopted fastening, otherwise can only load-bearing, can not be antitorque, for the rack had in the data center module of antidetonation earthquake intensity requirement, antidetonation earthquake intensity requirement cannot be met, on the other hand, by existing assembled time frame structure and after door-plate, top board, base plate, side plate be assembled into rack, the forward and backward door-plate of rack is packed separately and deposits, and very easily damages in transportation.
Summary of the invention
The applicant improves for above-mentioned shortcoming of the prior art, provides a kind of cabinet framework and cabinet structure, improves the intensity of framework, rigidity, assembled simple, quick, and is convenient to transport and stores.
Technical scheme of the present invention is as follows:
Cabinet framework, comprises front frame and after-frame, and front frame and after-frame are interconnected together by two cross beam sectional bars and two root post section bars, connected by top longeron between front frame and the top corner of after-frame, connected by bottom girder between front frame and the bottom corner of after-frame, separation longeron is connected with between the column section of front frame and after-frame homonymy, and on vertical, be connected with at least three layers of side girder between the column section of described homonymy, separate longeron between the side girder and undermost side girder of the superiors, length direction along side girder is connected with at least two vertical angle gauges, the vertical multilayer side girder that is upper and homonymy of angle gauge is affixed, angle gauge is positioned at front frame, after-frame, in the space that top longeron and bottom girder are formed.
Its further technical scheme is:
Described cross beam sectional bar is identical with the shape of cross section of column section, column section comprises the reference side one of structure at a right angle, reference side two, the end of reference side one is bent to form installation side one toward the clockwise direction, the end of installation side one is bent to form installation side two toward the clockwise direction, the end of reference side two is counterclockwise bent to form installation side three, the end of installation side three is counterclockwise bent to form installation side four, installation side two and installation side four are drawn close mutually and form opening, cross beam sectional bar comprises the reference side three of structure at a right angle, reference side four, the end of reference side three is bent to form installation side five toward the clockwise direction, the end of installation side five is towards being bent to form installation side six clockwise, the end of reference side four is counterclockwise bent to form installation side seven, the end of installation side seven is counterclockwise bent to form installation side eight, installation side six and installation side eight are drawn close mutually and form opening, the reference side one of column section is connected with the transverse end surface of cross beam sectional bar, and the opening of cross beam sectional bar is inside described framework, and front frame is relative with the opening of the column section of after-frame homonymy.
Described installation side one is vertical relation with reference side one, installation side two, installation side three and reference side two, installation side four are vertical relation, installation side five and reference side three, installation side six are vertical relation, and installation side seven and reference side four, installation side eight are vertical relation.
Described top longeron is identical with the shape of cross section of bottom girder, top longeron comprises reference side five, the reference side six of structure at a right angle, the end of reference side five is bent to form installation side nine toward the clockwise direction, the end of installation side nine is counterclockwise bent to form installation side ten, the end of reference side six is counterclockwise bent to form installation side 11, the end of installation side 11 is bent to form installation side 12 toward the clockwise direction, and installation side ten and installation side 12 are separated from each other and form opening; Bottom girder comprises reference side seven, the reference side eight of structure at a right angle, the end of reference side seven is bent to form installation side 13 toward the clockwise direction, the end of installation side 13 is counterclockwise bent to form installation side 14, the end of reference side eight is towards being counterclockwise bent to form installation side 15, the end of installation side 15 is bent to form installation side 16 toward the clockwise direction, and installation side 14 and installation side 16 are separated from each other and form opening; Top longeron is fixedly connected with column section, cross beam sectional bar with installation side 12 respectively by installation side ten, bottom girder is fixedly connected with column section, cross beam sectional bar with installation side 16 respectively by installation side 14, push up the opening down of longeron, the opening of bottom girder is inside described framework.
Described installation side nine is vertical relation with reference side five, installation side ten, installation side 11 and reference side six, installation side 12 are vertical relation, installation side 13 and reference side seven, installation side 14 are vertical relation, and installation side 15 and reference side eight, installation side 16 are vertical relation.
Described side girder takes the shape of the letter U structure, be fixedly connected with respectively, and the opening of described U-shaped structure is outside described framework by the two side of described U-shaped structure with the column section of both sides.
The sidewall of described U-shaped structure outwards bends the locating flange being formed with backstop side and rectangular structure, and described U-shaped structure is rabbeted by the mounting groove of locating flange and column section.
Described angle gauge comprises fixation side, the installation side 17 of structure at a right angle, and the end of fixation side is bent to form installation side 18 toward the clockwise direction, and the end of installation side 18 is counterclockwise bent to form installation side 19.
Described installation side 18 is vertical relation with fixation side, installation side 19.
Described separation longeron comprises U-shaped main body, the end of the two side of described U-shaped main body is respectively towards being bent to form installation side 20, installation side 21 clockwise, counterclockwise, separating longeron is fixedly mounted on column section by installation side 20, installation side 21, and the opening of described U-shaped main body is inside described framework.
The side girder in described separation longeron and middle level is all located at the medium position of column section, and the side girder in middle level and the fixed position of column section are covered by the opening separating the described U-shaped main body of longeron.
Four bights of described front frame and after-frame are all connected with at least one earthing block.
Described column section upper/lower terminal is connected with contiguous block, and contiguous block is positioned at the die cavity that reference side two, installation side three and installation side four are formed.
On the basis adopting cabinet framework of the present invention, present invention also offers a kind of cabinet structure, comprise framework, top board, base plate, side plate and door-plate, door-plate comprises front door hinged with front frame, after-frame respectively and Rear Door, and side plate comprises the epipleural and lower side panel that are positioned at and separate longeron both sides.
Its further technical scheme is:
Described front door is clamshell doors, comprises the front left door-plate hinged respectively with two root post section bars in front frame and front right door-plate.
The upper and lower both sides of described top board, epipleural and lower side panel are provided with springlock and the locating flange in outwards bending, are rabbeted respectively by springlock and locating flange with the groove on described framework.
Described base plate is three stage structure, and each section is all rabbeted by the groove on the locating flange of its both sides and bottom girder.
Technique effect of the present invention:
1, before the present invention adopts, after-frame and the assembled forming machine cabinet frame work of multiple longeron, change traditional use top, the erection method of underframe and column section, adopt the vertical upper multilayer side girder arranged further simultaneously, along arranging and the multiple vertical angle gauge be connected with side girder with side girder length direction, whole cabinet framework is combined to form latticed framework, make front frame and after-frame assembly welding monolithic construction further, latticed framework is become to make described cabinet framework compared to traditional use top, underframe and the assembled framework of column section, there is higher intensity, rigidity, cabinet framework and the cabinet structure that uses cabinet framework of the present invention to assemble can be made to meet antidetonation earthquake intensity requirement,
2, the present invention is by the setting of the U-shaped structure of side girder, three function divisions are defined in described cabinet framework inner space, namely left side is separated between longeron and the middle level side girder in left side, between the middle level side girder in left side and the middle level side girder on right side, the middle level side girder on right side and right side separate three function divisions between longeron, maximally meets the installation of the light current cable of data rack and the cabling of data optical cable and the electronic equipment such as server, switch thus;
3, forward and backward mount structure of the present invention is identical and be arranged symmetrically with, make simultaneously cross beam sectional bar identical with the shape of cross section of column section, top longeron identical with the shape of cross section of bottom girder, not only reduce the kind of required parts, simplify the manufacturing process of cabinet framework and assembled process, top board, base plate, side plate and described cabinet framework are interlocking and elastic connection way simultaneously, the rapid-assembling that can realize rack easy to assembly, improves installation effectiveness;
4, cabinet structure of the present invention due to adopt forward and backward frame and each longeron assembled; in transport and in storing; the forward and backward door-plate of cabinet structure and forward and backward frame fit together and become a flat cell and pack; subregion side is deposited; borrow the protection of the forward and backward frame intensity of group, the damage risk of door-plate in transport, storing process can be reduced.
Accompanying drawing explanation
Fig. 1 is the structural blast schematic diagram of cabinet framework of the present invention.
Fig. 2 is the structural representation of illustrated cabinet framework.
Fig. 3 is the structural blast schematic diagram of front frame of the present invention or after-frame.
Fig. 4 is the structural representation of cross beam sectional bar of the present invention.
Fig. 5 is the structural representation of column section of the present invention.
Fig. 6 is the structural representation of top of the present invention longeron.
Fig. 7 is the structural representation of bottom girder of the present invention.
Fig. 8 is the structural representation of side girder of the present invention.
Fig. 9 is the structural representation of angle gauge of the present invention.
Figure 10 is the structural representation of separation longeron of the present invention.
Figure 11 is the structural blast schematic diagram of cabinet structure of the present invention.
Figure 12 is the structural representation in top board front of the present invention.
Figure 13 is the structural representation at the top board back side of the present invention.
Figure 14 is the structural representation in three stage structure base plate of the present invention.
Figure 15 is the structural representation of epipleural of the present invention or lower side panel.
Figure 16 is the assembly structure schematic diagram of after-frame of the present invention and Rear Door.
Figure 17 is the assembly structure schematic diagram of front frame of the present invention and clamshell doors.
Wherein: 100, front frame; 200, after-frame; 1, cross beam sectional bar; 101, reference side three; 102, reference side four; 103, installation side five; 104, installation side six; 105, installation side seven; 106, installation side eight; 2, column section; 201, reference side one; 202, reference side two; 203, installation side one; 204, installation side two; 205, installation side three; 206, installation side four; 3, longeron is pushed up; 301, reference side five; 302, reference side six; 303, installation side nine; 304, installation side ten; 305, installation side 11; 306, installation side 12; 4, bottom girder; 401, reference side seven; 402, reference side eight; 403, installation side 13; 404, installation side 14; 405, installation side 15; 406, installation side 16; 5, longeron is separated; 501, installation side 20; 502, installation side 21; 6, side girder; 601, backstop side; 602, locating flange one; 605, regulating tank one; 7, angle gauge; 701, installation side 17; 702, fixation side; 703, installation side 18; 704, installation side 19; 705, regulating tank two; 8, earthing block; 9, contiguous block; 10, framework; 20, top board; 2001, locating flange two; 30, base plate; 3001, locating flange four; 40, side plate; 4001, epipleural; 4002, lower side panel; 4003, locating flange three; 50, front door; 60, Rear Door; 5001, front left door-plate; 5002, front right door-plate; 70, locking bar; 80, springlock.
Embodiment
Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.
See Fig. 1, Fig. 2, cabinet framework of the present invention comprises front frame 100 and after-frame 200, and front frame 100 and after-frame 200 are interconnected together by two cross beam sectional bars 1 and two root post section bars 2, connected by top longeron 3 between front frame 100 and the top corner of after-frame 200, connected by bottom girder 4 between front frame 100 and the bottom corner of after-frame 200, be connected with between the column section 2 of front frame 100 and after-frame 200 homonymy and separate longeron 5, and on vertical, be connected with at least three layers of side girder 6 between the column section 2 of front frame 100 and after-frame 200 homonymy, separate longeron 5 between the side girder 6 and undermost side girder 6 of the superiors, length direction along side girder 6 is connected with at least two vertical angle gauges 7, the vertical multilayer side girder 6 that is upper and homonymy of angle gauge 7 is affixed, angle gauge 7 is positioned at front frame 100, after-frame 200, in the space that top longeron 3 and bottom girder 4 are formed.
In order to reduce the kind of required parts, simplify manufacturing process and assembling process, the application designs further and makes that described cross beam sectional bar 1 is identical with the shape of cross section of column section 2, top longeron 3 is identical with the shape of cross section of bottom girder 4.
Particularly, see Fig. 5, described column section 2 comprises reference side 1 and the reference side 2 202 of structure at a right angle, the end of reference side 1 is bent to form installation side 1 toward the clockwise direction, the end of installation side 1 is bent to form installation side 2 204 toward the clockwise direction, the end of reference side 2 202 is counterclockwise bent to form installation side 3 205, the end of installation side 3 205 is counterclockwise bent to form installation side 4 206, installation side 2 204 and installation side 4 206 are drawn close mutually and form opening, column section 2 entirety is for having the hollow structure of opening, installation side 2 204 is vertically provided with location notch and fixing hole, installation side 1 and installation side 4 206 are all vertically provided with fixing hole, see Fig. 4, described cross beam sectional bar 1 comprises the reference side 3 101 of structure at a right angle, reference side 4 102, the end of reference side 3 101 is bent to form installation side 5 103 toward the clockwise direction, the end of installation side 5 103 is towards being bent to form installation side 6 104 clockwise, the end of reference side 4 102 is counterclockwise bent to form installation side 7 105, the end of installation side 7 105 is counterclockwise bent to form installation side 8 106, installation side 6 104 and installation side 8 106 are drawn close mutually and form opening, cross beam sectional bar 1 entirety is for having the hollow structure of opening, installation side 8 106 and installation side 5 103 are equipped with fixing hole, installation side 7 105 is provided with earthing block connecting hole, described earthing block connecting hole is used for dead earth block 8, reference side 4 102 is provided with locking bar patchhole, described locking bar patchhole is for engaging with the locking bar on door-plate, cross beam sectional bar 1 is as follows with the assembly structure of column section 2: see Fig. 1, Fig. 3, the reference side 1 of described column section 2 is connected with the transverse end surface of cross beam sectional bar 1, make the opening of cross beam sectional bar 1 inside described cabinet framework, and the reference side 4 102 being provided with locking bar patchhole is for keeping flat to guarantee that the axis of locking bar patchhole is vertical direction, front frame 100 is relative with the opening of the column section 2 of after-frame 200 homonymy, and two cross beam sectional bars 1 and two root post section bars 2 are connected to each other the front frame 100 shown in rear formation Fig. 3 or after-frame 200.Preferably, in the structure of column section 2, installation side 1 and reference side 1, installation side 2 204 are vertical relation, installation side 3 205 and reference side 2 202, installation side 4 206 are vertical relation, in the structure of cross beam sectional bar 1, installation side 5 103 and reference side 3 101, installation side 6 104 are vertical relation, and installation side 7 105 and reference side 4 102, installation side 8 106 are vertical relation.
See Fig. 6, described top longeron 3 comprises the reference side 5 301 of structure at a right angle, reference side 6 302, the end of reference side 5 301 is bent to form installation side 9 303 toward the clockwise direction, the end of installation side 9 303 is counterclockwise bent to form installation side 10, the end of reference side 6 302 is counterclockwise bent to form installation side 11, the end of installation side 11 is bent to form installation side 12 toward the clockwise direction, installation side 10 and installation side 12 are separated from each other and form opening, top longeron 3 entirety is for having the hollow structure of opening, installation side 10 and installation side 12 are provided with the fixing hole be connected with front frame 100 or after-frame 200, installation side 11 is provided with the mounting groove rabbeted with top board 20, installation side 9 303 is provided with the mounting groove rabbeted with side plate 40, see Fig. 7, described bottom girder 4 comprises the reference side 7 401 of structure at a right angle, reference side 8 402, the end of reference side 7 401 is bent to form installation side 13 toward the clockwise direction, the end of installation side 13 is counterclockwise bent to form installation side 14, the end of reference side 8 402 is towards being counterclockwise bent to form installation side 15, the end of installation side 15 is bent to form installation side 16 toward the clockwise direction, installation side 14 and installation side 16 are separated from each other and form opening, bottom girder 4 entirety is for having the hollow structure of opening, installation side 16 and installation side 14 are provided with the fixing hole be connected with front frame 100 or after-frame 200, installation side 13 is provided with the mounting groove rabbeted with base plate 30, installation side 15 is provided with the mounting groove rabbeted with side plate 40, top longeron 3 is as follows with the assembly structure of bottom girder 4: described top longeron 3 is fixedly connected with column section 2, cross beam sectional bar 1 with installation side 12 respectively by installation side 10, bottom girder 4 is fixedly connected with column section 2, cross beam sectional bar 1 with installation side 14 respectively by installation side 16, push up the opening down of longeron 3, the opening of bottom girder 4 is inside framework.Preferably, in the structure of top longeron 3, installation side 9 303 and reference side 5 301, installation side 10 are vertical relation, installation side 11 and reference side 6 302, installation side 12 are vertical relation, in the structure of bottom girder 4, installation side 13 and reference side 7 401, installation side 14 are vertical relation, and installation side 15 and reference side 8 402, installation side 16 are vertical relation.
Further, see Fig. 8, described side girder 6 takes the shape of the letter U structure, be fixedly connected with respectively, and the opening of described U-shaped structure is outside framework by the two side of described U-shaped structure with the column section 2 of both sides.Particularly, the bottom of described U-shaped structure is provided with regulating tank 1 and fixing hole; The sidewall of described U-shaped structure outwards bends the locating flange 1 being formed with backstop side 601 and rectangular structure, see Fig. 1, described U-shaped structure is rabbeted with the location notch on installation side 2 204 in column section 2 by described locating flange 602, backstop side 601 and installation side 2 204 are fitted, for the cross spacing of side girder 6.
Particularly, see Fig. 9, described angle gauge 7 comprises the installation side 17 of structure at a right angle, fixation side 702, the end of fixation side 702 is bent to form installation side 18 toward the clockwise direction, the end of installation side 18 is counterclockwise bent to form installation side 19, installation side 17 and installation side 19 are annex installation side, preferably, described installation side 18 and fixation side 702, installation side 19 is vertical relation, angle gauge 7 is as follows with the assembly structure of side girder 6: fixation side 702 is fixedly connected with the bottom outer wall face of the described U-shaped structure of side girder 6, fixation side 702 is provided with regulating tank 2 705 and fixing hole, regulating tank 2 705 is corresponding with the fixing hole of the described U-shaped structural base of side girder 6 to be connected by securing member, fixing hole in fixation side 702 is corresponding with the regulating tank 1 of the described U-shaped structural base of side girder 6 to be connected by securing member, angle gauge 7 and side girder 6 by groove to hole and/or hole to the setting of two of groove kinds of mounting meanss, for the installation of angle gauge 7 provides greater flexibility.
Particularly, see Figure 10, described separation longeron 5 comprises U-shaped main body, the end of the two side of described U-shaped main body is respectively towards being bent to form installation side 20, installation side 21 clockwise, counterclockwise, separating longeron 5 is fixedly mounted on column section 2 by installation side 20, installation side 21, and the opening of described U-shaped main body is inside framework.See Fig. 1, Fig. 2, described separation longeron 5 and the side girder 6 in middle level are all located at the medium position of column section 2, and the side girder 6 in middle level is covered by the opening separating the described U-shaped main body of longeron 5 with the fixed position of column section 2.
See Fig. 3, four bights of described front frame 100 and after-frame 200 are all connected with at least one earthing block 8, and four bights are communicated with to get up by earthing block 8, form an equipotential passage; Described column section 2 upper/lower terminal is connected with contiguous block 9, contiguous block 9 is positioned at the die cavity that reference side 2 202, installation side 3 205 and installation side 4 206 are formed, described contiguous block 9 for whole described cabinet framework is fixed to cold passage rack high-base in IDC machine room, or is fixedly connected with other fastening.
Figure 2 shows that the preferred embodiment of cabinet framework of the present invention, in employing, in, lower three layers of side girder 6 and two angle gauges 7, front frame 100 and after-frame 200 are assembly welding structure, whole cabinet framework is by the top longeron 3 arranged successively on vertical, upper layer side longeron 6, separate longeron 5/ middle level side girder 6, lower layer side longeron 6, bottom girder 4 and longitudinally on the front pillars section bar 2 arranged successively, two angle gauges 700, rear column section 2 is combined to form one the five horizontal four latticed frameworks erected, and front frame 100 and after-frame 200 are assembly welding monolithic construction, by described cabinet framework is arranged to latticed architectural configurations, cabinet framework is made to have higher intensity, rigidity, meet the antidetonation earthquake intensity requirement of cabinet framework, by the setting of the U-shaped structure of side girder 6, three function divisions are defined in described cabinet framework inner space, namely left side is separated between longeron 5 and the middle level side girder 6 in left side, between the middle level side girder 6 in left side and the middle level side girder 6 on right side, the middle level side girder 6 on right side and right side separate three function divisions between longeron 5, maximally meets the installation of the light current cable of data rack and the cabling of data optical cable and the electronic equipment such as server, switch thus, whole cabinet framework is symmetrical structure, can complete assembling fast, improve installation effectiveness.
On the basis adopting cabinet framework of the present invention, present invention also offers a kind of cabinet structure, see Figure 11, described cabinet structure comprises framework 10, top board 20, base plate 30, side plate 40 and door-plate, framework 10 is cabinet framework of the present invention, described door-plate comprise respectively with front frame 100, the front door 50 that after-frame 200 is hinged and Rear Door 60, see Figure 16, Figure 17, front door 50, Rear Door 60 Ju respectively with front frame 100, column section 2 in after-frame 200 is hinged, lock house on Rear Door 60 and the patchhole grafting on the column section 2 of after-frame 200, side plate 40 comprises the epipleural 4001 and lower side panel 4002 that are positioned at and separate longeron 5 both sides.
Particularly, see Figure 17, described front door 50 is clamshell doors, comprise the front left door-plate 5001 hinged respectively with two root post section bars 2 in front frame 100 and front right door-plate 5002, front left door-plate 5001 is provided with upper and lower two locking bars 70, locking bar 70 and the locking bar patchhole grafting in the reference side 4 102 of cross beam sectional bar 1.
The upper and lower both sides of top board 20, epipleural 4001 and lower side panel 4002 are provided with springlock and the locating flange in outwards bending, rabbeted with the groove on framework respectively by springlock and locating flange, particularly, see Figure 12, Figure 13, top board 20 two sides are respectively equipped with the locating flange 2 2001 of springlock 80 and outwards turnover, and springlock 80, locating flange 2002 are rabbeted with mounting groove on the installation side 11 in the top longeron 3 of both sides respectively; See Figure 15, the upper and lower both sides of epipleural 4001 and lower side panel 4002 are equipped with the locating flange 3 4003 of springlock 80 and outwards turnover, the springlock 80 of epipleural 4001 is rabbeted with the mounting groove on installation side 9 303 in the longeron 3 of top, the springlock 80 of lower side panel 4002 rabbet with the mounting groove on installation side 15 in bottom girder 4, and the mounting groove on the two side of U-shaped main body described in the locating flange 3 4003 on epipleural 4001 and lower side panel 4002 and middle level side girder 6 is rabbeted; See Figure 14, described base plate 30 is syllogic splicing construction, and each section described is all rabbeted with the mounting groove on bottom girder 4 installation side 13 by the locating flange 4 3001 turned up of its both sides.
Cabinet structure of the present invention due to adopt forward and backward frame and each longeron assembled, in transport and in storing, the forward and backward door-plate of cabinet structure and forward and backward frame fit together and become a flat cell and pack, subregion side is deposited, borrow the protection of the forward and backward frame intensity of group, can reduce the damage risk of door-plate in transport, storing process, simultaneously due to the use of grid-like framework 10, rack of the present invention can meet antidetonation earthquake intensity requirement; Owing to mostly adopting interlocking, elasticity connection between each parts of the present invention, easy to assembly, can rapid-assembling be realized.
More than describing is explanation of the invention, and be not the restriction to invention, limited range of the present invention, see claim, within protection scope of the present invention, can do any type of amendment.
Claims (12)
1. cabinet framework, is characterized in that: comprise front frame (100) and after-frame (200), and front frame (100) and after-frame (200) are interconnected together by two cross beam sectional bars (1) and two root post section bars (2), connected by top longeron (3) between the top corner of front frame (100) and after-frame (200), connected by bottom girder (4) between the bottom corner of front frame (100) and after-frame (200), be connected with between the column section (2) of front frame (100) and after-frame (200) homonymy and separate longeron (5), and on vertical, be connected with at least three layers of side girder (6) between the column section of described homonymy (2), separating longeron (5) is positioned between the side girder (6) of the superiors and undermost side girder (6), length direction along side girder (6) is connected with at least two vertical angle gauges (7), the vertical multilayer side girder (6) that is upper and homonymy of angle gauge (7) is affixed, angle gauge (7) is positioned at front frame (100), after-frame (200), in the space that top longeron (3) and bottom girder (4) are formed.
2. by cabinet framework according to claim 1, it is characterized in that: described cross beam sectional bar (1) is identical with the shape of cross section of column section (2), column section (2) comprises the reference side one (201) of structure at a right angle, reference side two (202), the end of reference side one (201) is bent to form installation side one (203) toward the clockwise direction, the end of installation side one (203) is bent to form installation side two (204) toward the clockwise direction, the end of reference side two (202) is counterclockwise bent to form installation side three (205), the end of installation side three (205) is counterclockwise bent to form installation side four (206), installation side two (204) and installation side four (206) are drawn close mutually and form opening, cross beam sectional bar (1) comprises the reference side three (101) of structure at a right angle, reference side four (102), the end of reference side three (101) is bent to form installation side five (103) toward the clockwise direction, the end of installation side five (103) is towards being bent to form installation side six (104) clockwise, the end of reference side four (102) is counterclockwise bent to form installation side seven (105), the end of installation side seven (105) is counterclockwise bent to form installation side eight (106), installation side six (104) and installation side eight (106) are drawn close mutually and form opening, the reference side one (201) of column section (2) is connected with the transverse end surface of cross beam sectional bar (1), and the opening of cross beam sectional bar (1) is inside described framework, and front frame (100) is relative with the opening of the column section (2) of after-frame (200) homonymy, described installation side one (203) is vertical relation with reference side one (201), installation side two (204), installation side three (205) and reference side two (202), installation side four (206) are vertical relation, installation side five (103) and reference side three (101), installation side six (104) are vertical relation, and installation side seven (105) and reference side four (102), installation side eight (106) are vertical relation.
3. by cabinet framework according to claim 1, it is characterized in that: described top longeron (3) is identical with the shape of cross section of bottom girder (4), top longeron (3) comprises the reference side five (301) of structure at a right angle, reference side six (302), the end of reference side five (301) is bent to form installation side nine (303) toward the clockwise direction, the end of installation side nine (303) is counterclockwise bent to form installation side ten (304), the end of reference side six (302) is counterclockwise bent to form installation side ten one (305), the end of installation side ten one (305) is bent to form installation side ten two (306) toward the clockwise direction, installation side ten (304) and installation side ten two (306) are separated from each other and form opening, bottom girder (4) comprises the reference side seven (401) of structure at a right angle, reference side eight (402), the end of reference side seven (401) is bent to form installation side ten three (403) toward the clockwise direction, the end of installation side ten three (403) is counterclockwise bent to form installation side ten four (404), the end of reference side eight (402) is towards being counterclockwise bent to form installation side ten five (405), the end of installation side ten five (405) is bent to form installation side ten six (406) toward the clockwise direction, installation side ten four (404) and installation side ten six (406) are separated from each other and form opening, top longeron (3) is fixedly connected with column section (2), cross beam sectional bar (1) with installation side ten two (306) respectively by installation side ten (304), bottom girder (4) is fixedly connected with column section (2), cross beam sectional bar (1) with installation side ten six (406) respectively by installation side ten four (404), push up the opening down of longeron (3), the opening of bottom girder (4) is inside described framework, described installation side nine (303) is vertical relation with reference side five (301), installation side ten (304), installation side ten one (305) and reference side six (302), installation side ten two (306) are vertical relation, installation side ten three (403) and reference side seven (401), installation side ten four (404) are vertical relation, and installation side ten five (405) and reference side eight (402), installation side ten six (406) are vertical relation.
4. by cabinet framework according to claim 1, it is characterized in that: described side girder (6) takes the shape of the letter U structure, be fixedly connected with respectively, and the opening of described U-shaped structure is outside described framework by the two side of described U-shaped structure with the column section (2) of both sides.
5. by cabinet framework according to claim 4, it is characterized in that: the sidewall of described U-shaped structure outwards bends the locating flange being formed with backstop side (601) and rectangular structure, and described U-shaped structure is rabbeted by the mounting groove of locating flange and column section (2).
6. by cabinet framework according to claim 1, it is characterized in that: described angle gauge (7) comprises installation side ten seven (701), (702) of structure at a right angle, the end of fixation side (702) is bent to form installation side ten eight (703) toward the clockwise direction, and the end of installation side ten eight (703) is counterclockwise bent to form installation side ten nine (704); Described installation side ten eight (703) is vertical relation with fixation side (702), installation side ten nine (704).
7. by cabinet framework according to claim 1, it is characterized in that: described separation longeron (5) comprises U-shaped main body, the end of the two side of described U-shaped main body is respectively towards being bent to form installation side 20 (501), installation side 21 (502) clockwise, counterclockwise, separating longeron (5) is fixedly mounted on column section (2) by installation side 20 (501), installation side 21 (502), and the opening of described U-shaped main body is inside described framework.
8. by cabinet framework according to claim 7, it is characterized in that: described separation longeron (5) is all located at the medium position of column section (2) with the side girder (6) in middle level, the side girder (6) in middle level and the fixed position of column section (2) are covered by the opening separating the described U-shaped main body of longeron (5).
9. cabinet structure, comprise framework (10), top board (20), base plate (30), side plate (40) and door-plate, it is characterized in that: described framework (10) is the cabinet framework described in the arbitrary claim of claim 1 to 13, described door-plate comprises front door (50) hinged with front frame (100), after-frame (200) respectively and Rear Door (60), and side plate (40) comprises the epipleural (4001) and lower side panel (4002) that are positioned at and separate longeron (5) both sides.
10. by cabinet structure according to claim 9, it is characterized in that: described front door (5001) is clamshell doors, comprise the front left door-plate (5001) hinged respectively with two root post section bars (2) in front frame (100) and front right door-plate (5002).
11. by cabinet structure according to claim 9, it is characterized in that: the upper and lower both sides of described top board (20), epipleural (4001) and lower side panel (4002) are provided with springlock and the locating flange in outwards bending, are rabbeted respectively by springlock and locating flange with the groove on described framework.
12. by cabinet structure according to claim 9, it is characterized in that: described base plate (30) is three stage structure, and each section is all rabbeted by the groove on the locating flange of its both sides and bottom girder (4).
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Cited By (7)
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CN106102408A (en) * | 2016-07-06 | 2016-11-09 | 深圳市艾特网能技术有限公司 | The support section bar of a kind of rack and rack |
CN107889439A (en) * | 2017-06-19 | 2018-04-06 | 广州汇安科技有限公司 | A kind of low-and high-frequency electromagnetic screen with shockproof function |
CN108419389A (en) * | 2018-03-14 | 2018-08-17 | 上海复珊精密制造有限公司 | A kind of quake-proof machine cabinet frame |
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CN102984913A (en) * | 2012-11-16 | 2013-03-20 | 无锡康贝电子设备有限公司 | Cabinet structure |
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CN202121886U (en) * | 2011-05-31 | 2012-01-18 | 艾默生网络能源有限公司 | Server rack |
US20140146459A1 (en) * | 2012-07-30 | 2014-05-29 | Methode Electronics, Inc. | Data center equipment cabinet information center |
CN102984913A (en) * | 2012-11-16 | 2013-03-20 | 无锡康贝电子设备有限公司 | Cabinet structure |
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CN106102408A (en) * | 2016-07-06 | 2016-11-09 | 深圳市艾特网能技术有限公司 | The support section bar of a kind of rack and rack |
CN107889439A (en) * | 2017-06-19 | 2018-04-06 | 广州汇安科技有限公司 | A kind of low-and high-frequency electromagnetic screen with shockproof function |
CN108419389A (en) * | 2018-03-14 | 2018-08-17 | 上海复珊精密制造有限公司 | A kind of quake-proof machine cabinet frame |
CN112993785A (en) * | 2019-12-17 | 2021-06-18 | 河南森源电气股份有限公司 | Switch cabinet body and switch cabinet |
CN112993785B (en) * | 2019-12-17 | 2022-12-23 | 河南森源电气股份有限公司 | Switch cabinet body and switch cabinet |
CN111542197A (en) * | 2020-04-09 | 2020-08-14 | 图腾电子设备(昆山)有限公司 | Structure of data cabinet |
CN111542197B (en) * | 2020-04-09 | 2024-05-07 | 图腾电子设备(昆山)有限公司 | Structure of data cabinet |
CN111564176A (en) * | 2020-04-24 | 2020-08-21 | 哈尔滨新科锐复合材料制造有限公司 | Composite material integral co-curing case for aviation airborne equipment module |
CN113163649A (en) * | 2021-04-08 | 2021-07-23 | 江苏环亚医用科技集团股份有限公司 | Modularization can dismantle informationization rack |
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