An electronic equipment enclosure includes a frame structure and a customizable side air dam kit. The frame structure includes a front frame, a rear frame, front-to-back frame members connecting corners of the front and rear frames together, reinforced bracket structures located near ends of the cro
An electronic equipment enclosure includes a frame structure and a customizable side air dam kit. The frame structure includes a front frame, a rear frame, front-to-back frame members connecting corners of the front and rear frames together, reinforced bracket structures located near ends of the cross members, and extruded horizontal mounting rails parallel to, but inward from, the front-to-back frame members. The ends of the horizontal mounting rails are connected to the reinforced bracket structures. Panels are installed in longitudinal slots in the front-to-back frame members and horizontal mounting rails, each of which is extruded. The customizable side air dam kit includes a framework of horizontal and vertical frame pieces, adapted to connect to the frame structure, and a customizable air dam panel supported by the framework. A plurality of the frame pieces are provided to an installer for use in constructing the framework to fit the specific frame structure.
대표청구항▼
1. An electronic equipment enclosure structure, comprising: (a) a frame structure, including: (i) a front frame, including a first pair of vertical frame members, a first upper side-to-side cross member, and a first lower side-to-side cross member,(ii) a rear frame, including a second pair of vertic
1. An electronic equipment enclosure structure, comprising: (a) a frame structure, including: (i) a front frame, including a first pair of vertical frame members, a first upper side-to-side cross member, and a first lower side-to-side cross member,(ii) a rear frame, including a second pair of vertical frame members, a second upper side-to-side cross member, and a second lower side-to-side cross member,(iii) first and second front-to-back horizontal frame members connecting upper corners of the front frame to respective upper corners of the rear frame, and(iv) third and fourth front-to-back horizontal frame members connecting lower corners of the front frame to respective lower corners of the rear frame;(b) a plurality of front-to-back horizontal mounting rails, each made of extruded metal and having proximal and distal ends, including: (i) first and second horizontal mounting rails interconnected at their proximal ends to the upper side-to-side cross member of the front frame and at their distal ends to the upper side-to-side cross member of the rear frame such that the first and second horizontal mounting rails are disposed adjacent to, but spaced inwardly from, the first and second front-to-back horizontal frame members, and(ii) third and fourth horizontal mounting rails interconnected at their proximal ends to the lower side-to-side cross member of the front frame and at their distal ends to the lower side-to-side cross member of the rear frame such that the third and fourth horizontal mounting rails are disposed adjacent to, but spaced inwardly from, the third and fourth front-to-back horizontal frame members; and(c) a plurality of reinforced bracket assemblies, wherein each reinforced bracket assembly: (i) is manufactured separately from the horizontal mounting rails and side-to-side cross members, and(ii) is subsequently attached to either a proximal or distal end of a horizontal mounting rail, and to either a front side-to-side cross member or a rear side-to-side cross member, such that the bracket assembly reinforces the interconnection of the respective horizontal mounting rail and the respective side-to-side cross member. 2. The electronic equipment enclosure structure of claim 1, wherein each side-to-side cross member includes opposed ends and first and second integral tabs, the tabs extending vertically from the cross member at locations that are spaced inwardly from the opposed ends thereof, and wherein each integral tab is interconnected to an end of a respective horizontal mounting rail. 3. The electronic equipment enclosure structure of claim 2, wherein each reinforced bracket assembly includes a brace structure, having at least an L-shaped cross-section that includes a first vertical portion that is interconnected to the end of the respective horizontal mounting rail and a second vertical portion, right-angled relative to the first vertical portion, that braces the first vertical portion against the respective side-to-side cross member. 4. The electronic equipment enclosure structure of claim 3, wherein the first vertical portion of each brace structure is disposed between the respective tab and the end of the respective horizontal mounting rail. 5. The electronic equipment enclosure structure of claim 4, wherein the first vertical portion of each brace structure and the respective tab are fastened to the end of the respective horizontal mounting rail via a respective fastener connected to a slot that is part of the extrusion of the horizontal mounting rail. 6. The electronic equipment enclosure structure of claim 5, wherein the slot is a cylindrical slot and the fastener is threaded into the cylindrical slot. 7. The electronic equipment enclosure structure of claim 3, wherein each reinforced bracket assembly further includes a cover disposed around the brace structure. 8. The electronic equipment enclosure structure of claim 1, wherein each reinforced bracket assembly includes a brace structure, having at least an L-shaped cross-section that includes a first vertical portion that is interconnected to the end of the respective horizontal mounting rail and a second vertical portion, angled relative to the first vertical portion, that braces the first vertical portion against the respective side-to-side cross member. 9. The electronic equipment enclosure structure of claim 8, wherein the brace structure of each reinforced bracket assembly has a U-shaped cross-section that includes the first vertical portion, the second vertical portion, and a third vertical portion, wherein the third vertical portion is angled relative to the first vertical portion and braces the first vertical portion against the respective side-to-side cross member. 10. The electronic equipment enclosure structure of claim 9, wherein the second and third vertical portions of the brace structure each include a respective tab that extends through the side-to-side cross member. 11. The electronic equipment enclosure structure of claim 10, wherein each reinforced bracket assembly further includes a reinforcement plate, wherein the bulk of each respective brace structure is disposed on the opposite side of the side-to-side cross member from the reinforcement plate, and wherein the tabs of the brace structure extend through the side-to-side cross member and reside in slots in the respective reinforcement plate. 12. A frame structure for an electronic equipment enclosure, comprising: (a) a front frame, including a first pair of vertical frame members, a first upper side-to-side cross member, and a first lower side-to-side cross member;(b) a rear frame, including a second pair of vertical frame members, a second upper side-to-side cross member, and a second lower side-to-side cross member;(c) a plurality of front-to-back horizontal members, including first, second, third, and fourth horizontal members, wherein: (i) each front-to-back horizontal member is a frame member, a horizontal mounting rail, or a combination frame member/horizontal mounting rail,(ii) each horizontal member has a proximal end and a distal end, and(iii) each horizontal member is made of extruded metal; and(d) a plurality of brace structures, each having a U-shaped cross-section that includes center and side vertical portions, the side vertical portions being right-angled relative to the center vertical portion;(e) wherein the first and second horizontal members are interconnected at their proximal ends to the upper side-to-side cross member of the front frame and at their distal ends to the upper side-to-side cross member of the rear frame, and wherein the third and fourth horizontal members are interconnected at their proximal ends to the lower side-to-side cross member of the front frame and at their distal ends to the lower side-to-side cross member of the rear frame; and(f) wherein each interconnection of an end of a horizontal member with a side-to-side cross member is reinforced by a respective brace structure such that the center vertical portion of the brace structure is interconnected to the end of the respective horizontal members and the side vertical portions of the brace structure are arranged to brace the center vertical portion against the respective side-to-side cross member. 13. The frame structure of claim 12, wherein each end of each horizontal member includes an end surface that matches the cross-section of the extrusion of the horizontal member, and wherein the side-to-side cross members and brace structures are interconnected with the end surfaces of the horizontal members. 14. The frame structure of claim 13, wherein the side vertical portions of each brace structure each include a respective tab that extends through the respective side-to-side cross member. 15. The frame structure of claim 14, further comprising a plurality of reinforcement plates, each corresponding to a respective brace structure, wherein the bulk of each respective brace structure is disposed on the opposite side of the side-to-side cross member from the reinforcement plate, and wherein the tabs of each brace structure extend through the side-to-side cross member and reside in slots in the respective reinforcement plate. 16. The frame structure of claim 14, wherein the side vertical portions of each brace structure also press against the respective side-to-side cross member. 17. A frame structure for an electronic equipment enclosure, comprising: (a) a front frame, including a first pair of vertical frame members, a first upper side-to-side cross member, and a first lower side-to-side cross member;(b) a rear frame, including a second pair of vertical frame members, a second upper side-to-side cross member, and a second lower side-to-side cross member;(c) a plurality of front-to-back horizontal members, including first, second, third, and fourth horizontal members, wherein: (i) each front-to-back horizontal member is a frame member, a horizontal mounting rail, or a combination frame member/horizontal mounting rail,(ii) each horizontal member has a proximal end and a distal end, and(iii) each horizontal member is made of extruded metal and has an extruded slot running along its longitudinal axis; and(d) a plurality of brace structures, wherein each brace structure is manufactured separately from the front-to-back horizontal members and the side-to-side cross members;(e) wherein each side-to-side cross member includes opposed ends and first and second integral tabs, the tabs extending vertically from the cross member at locations that are spaced inwardly from the opposed ends thereof; and(f) wherein: (i) the first and second horizontal members are interconnected at their proximal ends to the integral tabs on the upper side-to-side cross member of the front frame and at their distal ends to the integral tabs on the upper side-to-side cross member of the rear frame,(ii) the third and fourth horizontal mounting rails are interconnected at their proximal ends to the integral tabs on the lower side-to-side cross member of the front frame and at their distal ends to the integral tabs on the lower side-to-side cross member of the rear frame,(iii) each interconnection of a horizontal member end to a tab on a side-to-side cross member is at least partially facilitated by a fastener extending through the tab and connecting to the extruded slot of the horizontal mounting rail, and(iv) each interconnection of a horizontal member end to a tab on a side-to-side cross member is reinforced by a respective brace structure. 18. The frame structure of claim 17, wherein each end of each horizontal member includes an end surface that matches the cross-section of the extrusion of the horizontal member, and wherein the side-to-side cross members and brace structures are interconnected with the end surfaces of the horizontal members. 19. The frame structure of claim 18, wherein each brace structure includes a first vertical portion that is disposed between the respective tab and the end surface of the respective horizontal mounting rail. 20. The frame structure of claim 18, wherein the slot is a cylindrical slot and the fastener is threaded into the cylindrical slot.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (90)
Linhares, Jr., Manuel D.; Cotulli, Carl, Adjustable blanking panel.
Dean, Jr., David Lee; Donowho, David Brian; Lewis, II, Richard Evans; Messmer, Karl Theodore; Ugolini, Alan William, Apparatus and method for organizing cables in a cabinet.
Robirds Timothy G. (Sumter SC) Petrisko John D. (West Mifflin Boro PA) Patel Nagar J. (Plum Boro PA) Aglietti William Q. (Penn Hills Township ; Allegheny County PA), Drawout switchgear cell frame.
Dean, Jr., David Lee; Donowho, David Brian; Lewis, II, Richard Evans; Messmer, Karl Theodore; Ugolini, Alan William, Kit for organizing cables in a cabinet.
Carle Pierre,FRX ; Laboch Kazimir,FRX ; Pin Jean-Pierre,FRX, Metallic framework equipped with a progressive tightening corner-piece, in particular for an electrical cabinet.
Dean, Jr., David Lee; Donowho, David Brian; Lewis, II, Richard Evans; Messmer, Karl Theodore; Ugolini, Alan William, Method for organizing cables in a cabinet to reduce impeded airflow.
Adducci, Samuel J.; Doorhy, Brendan F.; Walker, Jonathan D.; Johnson, Rhonda L.; Calder, Andrew R., Network cabinet with thermal airflow management system.
Henry Castillo ; Randolph D. Gray ; Robert J. Neville, Jr. ; Tiffany J. Williams ; Jerry D. Gandre, Rack system and method having tool-less releasable arm assembly.
Laboch Kazimir (Meylan FRX) Pin Jean-Pierre (St. Etienne De St. Geoirs FRX) Bossan Edmond (St. Marvellin FRX) Hermal Marc (Sarre-Union FRX) Milbach Pierre (Keshastel FRX) Kaczmarek Stephane (Sarre-Un, Support base for an electrical cabinet or similar and cabinet equipped with such a support base.
Blum Richard (Dietzenbach DEX) Groh Hans-Michael (Hainburg DEX) Kster Willi (Gelnhausen DEX) Schmidt Ludwig (Frankfurt DEX), Supporting framework for a control cabinet.
Donowho, D. Brian; Krietzman, William Drew; Oldt, Brandi May; Garza, Jr., Jose Arturo; Lewis, II, Richard Evans, Vertical mounting rail with cable management features.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.