Method and apparatus for suspending a package in an elevated position
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16L-003/10
F16M-013/02
E04B-009/18
F16L-003/20
E04B-009/00
출원번호
US-0243189
(2016-08-22)
등록번호
US-9909691
(2018-03-06)
발명자
/ 주소
Bianchini, Jay G.
출원인 / 주소
Bianchini, Jay G.
대리인 / 주소
North, Brett A.
인용정보
피인용 횟수 :
0인용 특허 :
46
초록▼
One embodiment provides a method and apparatus for suspending air conditioning duct works from a support structure comprising unistrut type support beams which apparatus includes a plurality of support brackets arranged and configured for being slidably interlockable with the interior of the unistru
One embodiment provides a method and apparatus for suspending air conditioning duct works from a support structure comprising unistrut type support beams which apparatus includes a plurality of support brackets arranged and configured for being slidably interlockable with the interior of the unistrut beam members. The support brackets can be slid inside the interior of the support beam until adjacent a support beam which support beam can be connected to the support bracket. In like manner additional support brackets can be inserted into the interior of the support beam members to be adjustably located next to their respective support rod. In such manner multiple support rods can be used to support a frame member even where the support rods are not symmetrically located along the length of the support beam as the support bracket can be slid/moved inside the support beam until lining up with its respective support rod. Additionally, the entire support framework can be moved relative to the plurality of support rods by sliding the framework relative to the support brackets. In such manner the location of the supporting frame member can be changed without moving the support rods.
대표청구항▼
1. A structural framework comprising: (a) a first support beam, the first beam having ends forming a channel shape with an interior, the ends having first and second inwardly facing flanges, and the interior having a first longitudinal centerline;(b) a first support bracket connectable to the first
1. A structural framework comprising: (a) a first support beam, the first beam having ends forming a channel shape with an interior, the ends having first and second inwardly facing flanges, and the interior having a first longitudinal centerline;(b) a first support bracket connectable to the first support beam, the first support bracket comprising:(i) a first flange of the first support bracket,(ii) a second flange of the first support bracket, the first flange of the first support bracket meeting the second flange of the first support bracket at an apex and forming an angle with the second flange of the first support bracket,(iii) a support section connected to the first flange of the first support bracket, wherein the first support bracket has locked and unlocked states relative to the first support beam, and the first support bracket changes from an unlocked state to a locked state relative to the first support beam by rotation in a first rotational direction about an axis which is generally parallel to the first longitudinal axis and creating a rotational locking force between the first support bracket and the first support beam which increases as the amount of weight supported by the first support bracket is increased, and the first support bracket changes from a locked state to an unlocked state relative to the first support beam by rotation in a second rotational direction about the axis which is generally parallel to the first longitudinal axis, but opposite of that of the first rotational direction of the first support bracket; and(iv) a first clamping section releasably connectable to the first support bracket and when connected to the first support bracket maintaining the first support bracket in the locked state relative to the first support beam by squeezing the first support beam between the first support bracket and the first clamping section. 2. The structural framework of claim 1, further comprising: (c) a second support beam, the second beam having ends forming a channel shape with an interior, the ends having first and second inwardly facing flanges, and the interior having a second longitudinal centerline;(d) a second support bracket connectable to the second support beam, the second support bracket comprising:(i) a first flange of the second support bracket,(ii) a second flange of the second support bracket, the first flange of the second support bracket meeting the second flange of the second support bracket at an apex and forming an angle with the second flange of the second support bracket,(iii) a support section connected to the first flange of the second support bracket, wherein the second support bracket has locked and unlocked states relative to the second support beam, and the second support bracket changes from an unlocked state to a locked state relative to the second support bracket by rotation in a first rotational direction about an axis which is generally parallel to the second longitudinal axis and creating a rotational locking force between the second support bracket and the second support beam which increases as the amount of weight supported by the second support bracket is increased, and the second support bracket changes from a locked state to an unlocked state relative to the second support bracket by rotation in a second rotational direction about the axis which is generally parallel to the second longitudinal axis, but opposite of that of the first rotational direction of the second support bracket; and(iv) a second clamping section releasably connectable to the second support bracket and when connected to the second support bracket maintaining the second support bracket in the locked state relative to the second support beam by squeezing the second support beam between the second support bracket and the second clamping section. 3. The structural framework of claim 2, wherein the first and second flanges of the first support bracket form a V-shape and the first and second flanges of the second support bracket form a V-shape. 4. The structural framework of claim 2, wherein the first clamping section has first, second and third sections, with the first section including a slot, and the slot being used to connect the first clamping section to the first support bracket. 5. The structural framework of claim 2, wherein the first clamping section is threadably connected to the first support bracket. 6. The structural framework of claim 2, wherein connecting the first clamp to the first support bracket causes the first support bracket to rotate from the unlocked to the locked state. 7. A structural framework comprising: (a) a first support beam, the first beam having ends forming a channel shape with an interior, the ends having first and second inwardly facing sockets, each inwardly facing socket having interior and exterior surfaces, the first support beam having a longitudinal centerline, and a cross section of the first support beam being made by an intersecting plane containing the longitudinal centerline;(b) a first support bracket connected to the first support beam, the first support bracket comprising:(i) a first flange,(ii) a second flange, the first flange meeting the second flange at an apex and forming an angle with the second flange,(iii) a support section connected to the first flange, wherein the first and second flanges are located in the interior of first support beam, and the second flange is supported by the second inwardly facing socket of the first support beam, and the first flange extending below the first inwardly facing socket of the first support beam, and wherein the support section includes an opening for connection with a first support rod wherein, when the first support rod is connected to the support section and passing through the opening, the first support rod remains outside of the cross section of the first support beam when said cross section is projected vertically from the longitudinal centerline of the first support beam; and(iv) a first clamping section releasably connectable to the first support bracket and when connected to the first support bracket squeezing the first support beam between the first support bracket and the first clamping section. 8. The structural framework of claim 7, wherein the first and second flanges of the first support bracket form a V-shape and the first and second flanges of the second support bracket form a V-shape. 9. The structural framework of claim 7, wherein the first clamping section has first, second and third sections, with the first section including a slot, and the slot being used to connect the first clamping section to the first support bracket. 10. The structural framework of claim 7, wherein the first clamping section is threadably connected to the first support bracket. 11. A structural framework comprising: (a) a first support beam, the first beam having ends forming a channel shape with an interior, the ends having first and second inwardly facing sockets, each inwardly facing socket having interior and exterior surfaces, the first support beam having a longitudinal centerline, and the first support beam having a bottom opening located between the first and second inwardly facing sockets;(b) a second support beam, the second support beam having ends forming a channel shape with an interior, the ends having first and second inwardly facing sockets, each inwardly facing socket having interior and exterior surfaces, the second support beam having a longitudinal centerline;(c) a first support bracket connected to the first support beam, the first support bracket comprising:(i) a first flange,(ii) a second flange, the first flange meeting the second flange at an apex and forming an angle with the second flange,(iii) a support section connected to the first flange, wherein the first and second flanges are located in the interior of the first support beam, and the second flange extends into and is supported by the interior surface of the second inwardly facing socket of the first support beam, and the first flange extends below the first inwardly facing socket of the first support beam and contact between the first flange and the exterior surface of first inwardly facing socket in combination with the support of the second planar flange by the interior surface of the second inwardly facing socket resists rotation of the first support bracket about an axis which is generally parallel to the longitudinal centerline of the first support beam, and(iv) a first clamping section releasably connectable to the first support bracket and when connected to the first support bracket squeezing the first support beam between the first support bracket and the first clamping section. 12. The structural framework of claim 11, wherein the first and second flanges of the first support bracket form a V-shape and the first and second flanges of the second support bracket form a V-shape. 13. The structural framework of claim 11, wherein the first clamping section has first, second and third sections, with the first section including a slot, and the slot being used to connect the first clamping section to the first support bracket. 14. The structural framework of claim 11, wherein the first clamping section is threadably connected to the first support bracket.
Bravo, Rey; Swett, Brett A.; Davis, David R.; Waszak, Dennis J.; Johnson, Rhonda; Dukes, Joseph Allen; Nelson, Kevin L.; Brzezniak, Stanley A., Cable management system for a raised floor grid system.
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