This invention relates generally to support columns, and more specifically, to an improved retractable support column for use in supporting overhead structures that can be extended from a portable or fixed in place platform.
Link structures that can be linked together to form a rigid structure are well known in the art. Structures of this kind may be used to form a platform to elevate a person or equipment, to form a bridge to permit a user to pass over an obstacle, or to form a dock. Additionally, such structures have been used in space applications to extend a flexible sheet of material or to form a tower as a structure in space. See U.S. Pat. Nos. 2,661,082, 3,397,546, 4,024,595, 4,089,147, and 4,237,662.
Retractable towers of this kind may be further utilized as a portable telecommunications tower, wherein various sites can be tested without constructing a costly test tower at a location to discover it was not effective for the intended purpose. Retractable towers may also be used as [a] temporary lighting systems for sporting events, emergencies, or on ships. Other applications may also be present in a variety of other fields and a variety of other situations.
The formation of retractable columns has been previously described. U.S. Pat. No. 4,920,710 to David L. Paine previously described a retractable support column for use in lifting and suspending overhead structures, which is herein incorporated by reference for everything it discloses. The structures that were formed using this apparatus and method, however, were subject to poor interconnection of the tower sections. The poor connection of the sides of the tower was caused in part by poor alignment of the section chains, and through the hooks, as the sides were raised. Poor alignment of the adjacent sections resulted in a poorly constructed tower; when a large amount of stress was placed on the poorly aligned tower, it sometimes resulted in the shearing of the pins holding the tower. The shearing of the pins resulted in a low structural integrity for the tower. These problems increased the difficulty in using tower systems of this type and also increased safety concerns and dangers.
Accordingly, there is a need for an improved retractable tower structure that provides greater structural integrity. There is a further need for a retractable tower which is more reliable, which provides a sturdier tower under adverse conditions, and which increases the load bearing characteristics of towers.
The present invention is an improved retractable tower which fills a variety of useful functions known in the art and which meets the needs in the art by providing greater stability and resistance to shear caused by wind, ice, snow, and other adverse weather conditions, which provides a sturdier structure and which increases the load bearing capacity. The present embodiment accomplishes these needs by incorporating a number of new features, among others, an improved chain connection member, an improved guide system, an improved support and connection system, and an improved take up mechanism. These systems function individually and in combination to form a more secure locking engagement with the adjacent section chains, and to form a more structurally sound and stable tower. A retractable column comprising at least two section chains arranged in an adjacent manner is described, each section chain having a plurality of sections pivotally connected to each other, at least one chain connection member extending in an outward direction from each section whereby the chain connection members have a surface, the surface of the chain connection members converging towards a point, and whereby the chain connection members couple to one another to link each section chain to the adjacent section chain in such a manner as to form a rigid column.
A retractable column that can be stored on a take up mechanism is described, the column further comprising, at least one section chain, each section chain comprising a plurality of sections pivotally connected in a line, the section chains being attached in such a manner that they can be rolled up on the take mechanism in a compact fashion and wherein each section is layered upon previous sections, a first connection member operably attached to each section wherein the first connection member extends in a horizontal manner from the section, a second connection member operably attached to each section wherein the second connection member extends in an off-set manner from the section, wherein the connection members are curved and wherein when the section chains are extended from the take up mechanism and into a corresponding position the section chains operably couple by attachment of the sequential attachment of first connection members to second connection members.
An apparatus for raising a retractable column is described, the apparatus comprising at least one section chain, the section chains operably positioned so that they may be raised and lowered concurrently, the raising and lowering of each section chain acting to couple each section chain to the adjacent section chains to form a column, a guide tower, the guide tower situated so that as the section chains are raised, the section chains move up the length of the guide tower and are guided into a position that facilitates the coupling of each section chain to the adjacent section chains to form a column, at least one guide roller, the guide roller operably attached to the guide tower so that the guide roller operatively interacts with a portion of the sections of the section chains to guide the section chains into position where each section chain may be physically coupled to the section chains adjacent to it, at least one shim, each shim operably attached to the guide tower, the shims providing an adjustable platform for guiding the sections of the section chains into a position whereby the coupling of the adjacent section chains will be accomplished, and further comprising a motor operably affixed to the guide tower, the motor effectuating the raising and lowering of each section chain.
A retractable column for supporting an overhead structure is described, the column further comprising, at least one section chain, each section chain comprising a plurality of sections pivotally connected in a line, the section chains being attached in such a manner that they can be rolled up on a take mechanism in a compact fashion with each section layered upon prior sections, a first hook attached to each section of the section chains, the first hook extending in a horizontal manner from each section, a second hook attached to the opposite side of each section from the first hook and in an off-set manner whereby each first hook on a section is adjacent to a second offset hook on an adjacent section, whereby when the section chains are raised in a concurrent manner, the first hooks form an interlocking engagement with the second hooks from adjacent sections, the interlocking engagement binding each section chain to the adjacent section chains.
A method for erecting a retractable tower is described, the method comprising, providing adjacent section chains, each chain further comprising a series of pivotally connected sections, coupling the adjacent sections of adjacent section chains by linking corresponding mating hooks from each section chain, and lifting the coupled section chains in a vertical manner as the adjacent section chains are coupled thereby forming each section chain into the face of a tower.
Additional features of the apparatus of the present invention will become more fully apparent and understood with reference to the above-referenced drawings, this description, and the appended claims, including the described embodiments of the extendable support column, and the description of erecting the device.
The accompanying Figures and descriptive material depict and describe embodiments of the present invention, including features and components thereof. With regard to fastening, mounting, attaching or connecting the components of the present invention to form the device or apparatus as a whole, unless specifically described otherwise, the invention may incorporate or use conventional fasteners such as screws, nut and bolt connectors, etc. Unless specifically otherwise disclosed or taught, materials for making components of the present invention are selected from appropriate materials such as metal, metallic alloys, fibers, fabrics, plastics and the like, natural or synthetic, and appropriate manufacturing or production methods including casting, extruding, molding and machining may be used. Furthermore, the members and components of the present invention may be constructed of solid formed pieces or hollow pieces, depending on the weight placed upon the tower while in use and the structural strength of the material used to make the tower.
Any references to front and back, right and left, top and bottom, and upper and lower are intended for convenience of description, not to limit the present invention or its components to any one positional or spatial orientation. As used herein, the terms “tower,” “extendable tower,” or “retractable tower” are intended to mean and/or encompass structures and/or apparatuses raised or raisable above a surface for providing a support column. Furthermore, each repetitive unit of the extendable tower may be referred to as a “section” or “link.” Each section or link may be of increasing length for reasons described further herein. The strip of sections placed together may be referred to as a section chain.
As illustrated in
As illustrated in
As illustrated in
As is further illustrated in
The hooks 40 of the present embodiment are furthermore secured to outwardly extend from the top portion of the crossbar 30. The blades 44, as illustrated in
As illustrated in
The tip 64 of the present embodiment is illustrated in
The shoulder portion 66 of the hooks 40 help to insure that the hooks 40 do not twist when pressure is placed upon the hook 40, either when the tower 20 is being raised or after the tower 20 is in position. Excessive pressure on the prior art hooks caused by twisting of the locking pins often caused the pins to shear. The present invention adds a shoulder 66 to the cylindrical rods 60 of the hooks 40 to prevent all of the pressure from being placed on the locking pins and shearing them, thus preventing the degradation of the tower 20 stability.
As illustrated in
The interaction of the cylindrical rod 60 with the blade 44 of the next successive section 24 also allows the sections 24 of the section chain 22 to be secured in a way that the whole section chain 22 can be drawn up by a drive mechanism 72 (not shown), but still allowing the sections 24 to be in a pivotal relationship with one another. Each side of the section 24 in the section chain 22 has one of the hooks 40 for engaging a similar hook 40 on an adjacent section 24. The saddle 70 and blade 44 arrangement may present a hook 40 on both sides of each successive section 24 of the section chain 22. The blade 44 and saddle 70 combination increases the reliability and structural integrity of the present invention tower 20.
As illustrated in
With reference to
As illustrated in
The offset hooks 42 have one end extending upward and through the opening of the corresponding hook 40. It is the interlocking engagement formed between hook 40 and hook 42 that provides the lateral connection to hold adjacent section chains 22 in a position next to each other. The adjacent struts 26 and 28 contact each other to prevent the inward collapsing of the section chains 22 while the offset hooks 42 and the other hooks 40 prevent the sections of the section chains 22 from collapsing outward. In this way, successive couplings may be achieved in a more efficient manner. When multiple hooks 40 are connected to successive vertical struts as shown, the present invention tower may be formed.
The rotational engagement of corresponding hooks 40 will be described. The struts 26 and 28 on the lower section 24 rotate in response to being driven up by a drive mechanism 72. In doing so, the hook 40 may be rotated about its central axis. The adjacent offset hook 42 is also rotated about its central axis in the same manner. The use of the hooks 40 and the offset hooks 42 permit the operator to actuate the drive mechanism 72 and thereby rotate the hooks 40 until they are coupled into interlocking engagement as the struts 26 and 28 reach a vertical position. The present invention permits the user to couple the sections 24 of the section chains 22 into interlocking engagement through pivotal rotation of the section chains 22 from the horizontal to the vertical position. As may be appreciated by those skilled in the art, as the corresponding sections 24 of the section chain 22 rotate in different directions during the retraction of the tower 20, the hooks 40 decouple from their interconnecting engagement.
In the present invention, the point 64 on the end of the hook portion 62 of the hooks 40 and 42 facilitate the consistent and secure coupling engagement of corresponding hooks 40, as the blunt end of the prior art hooks were easily bound against the corresponding hook without effectuating the proper locking attachment. Although both hooks 40 have a pointed C shape 62 for engaging with one another, the offsetting of one of the hooks 42 in a hook pair permits one to couple or decouple the hooks from one another solely through the pivotal rotation of the end of each section in the section chain 22 as the link chain 22 is lowered.
As illustrated in
The fasteners 77 above are not able to take the entire shear weight of the tower 20 alone. The present embodiment, as illustrated in
In addition to the T slot 79 and corresponding T fastener, illustrated in
The improved attachment of the gear rack 36 to the vertical strut 28 represents an improvement in the present invention over the prior art. The improved connection of the gear rack 36 insures that the gear rack 36 will not come loose even under the most adverse circumstances. If the gear rack 36 were to twist in any manner, come loose, or possibly even come off, then the section 24 would not be properly engaged by the drive mechanism 72 and would disrupt the coupling of the adjacent section chains 22 whereby reducing the strength of the resultant tower.
As illustrated in
As illustrated in
In order to compactly store the sections of the tower 20 on the take up mechanism, the section chain 22 sections 24 may be of increasing length. In other words, as illustrated in
As illustrated in
As illustrated in
As illustrated in
In alternative embodiments, a person skilled in the art may add a greater number of guide rollers to insure the correct positioning of the section chains 22 as they are raised and coupled to one another. As may be appreciated by one skilled in the art, having a multiple roller system may distribute the stress of guiding the sections 24 of the section chains 22 among more rollers, thereby improving the alignment of the sections 24. In the present embodiment, the guide rollers 112 and 114 may utilize a ceramic impregnated fiber roller bushing, a brass washer, a hard coated aluminum roller, and a steel roller shaft.
As illustrated in
The interior guide rollers 115 and 117 may present another advantage to the present invention in that it provides another surface with which to guide the sections 24 of the section chains 22 into the proper position to couple the hooks 40 and 42. Furthermore, the interaction of the interior guide rollers 115 and 117 with the rolling surface 119 may distribute more of the stress of guiding the section chains 20 into position, further reducing the wear on the other guide rollers 112 and 114, the shims 116, and the guide tower as a whole 118.
As illustrated in
The shim 116 may operably engage one or both of the vertical struts 26 and 28 and the guide tower 118 in such a manner to align the sections 24 into the correct position, acting in coordination with the guide rollers 112 and 114. The guide column 110 may furthermore be a structure placed in a fixed relationship with the guide tower 118 in such a manner so that some of the above rollers 112 and 114 and shims 116 may be affixed thereon. The taller the guide tower 118, the greater the assurance that the sections 24, and hence the hooks 40 and 42, will be in alignment as the tower 20 is raised into position. The interaction of the take up mechanism 80, which provides a stable and reliable platform for storing the section chains 22, and the improved alignment of the sections chains 22 as they are raised, provides for a reliable and structurally sound retractable tower.
As illustrated in
In alternative embodiments, a drive reduction mechanism with a drive motor, such as an electric motor, allows the user to lift the sections of the section chain upward even though there may be a load on top of the retractable column. The mating hooks 40 and 42, the various rollers 112 and 114, guides 110, etc., allow an 80 foot tower of the present invention, with a 5000 pound payload, to withstand winds in excess of 50 miles an hour. Further refinements in material and manufacture of the present embodiment may increase the height and payload capacities of the present invention without changing the nature and scope thereof.
In still another embodiment, the tower 20 may be formed by raising the sections in the inside of the guide tower walls. In this embodiment, the rollers, shims, etc. would point inwards and engage the sections as they pass through the inside of the tower.
As illustrated in
The reaction ring 136 is further illustrated in
As a safety measure, in an alternative embodiment solenoid activated dogs may be provided that engage the corresponding gear racks on the back of the link braces. The solenoid activated dogs may stop the downward movement of the tower should the power supply be cut. Dogs of this nature are well known to those reasonably skilled in the art. The top end of the dog may contain teeth that are normally spaced apart from gear rack teeth. If power should be cut off to the system, a solenoid release dog may rotate clockwise and into interlocking engagement with the teeth, thereby stopping the downward motion of the retractable column. Similarly, a pivotal dog is located in a normally spaced relationship to the gear rack teeth.
As illustrated in
As illustrated in
The information and examples described herein are for illustrative purposes and are not meant to exclude any derivations or alternative methods that are within the conceptual context of the invention. It is contemplated that various deviations can be made to this embodiment without deviating from the scope of the present invention. Accordingly, it is intended that the scope of the present invention be dictated by the appended claims rather than by the foregoing description of this embodiment.
This application is a continuation of U.S. application Ser. No. 13/553,409, filed on Jul. 19, 2012, which is a continuation of U.S. application Ser. No. 13/084,285, filed on Apr. 11, 2011, now U.S. Pat. No. 8,225,559, which is a continuation of U.S. application Ser. No. 12/533,054, filed on Jul. 31, 2009, now U.S. Pat. No. 7,921,611, which is a continuation of U.S. application Ser. No. 11/552,858, filed on Oct. 25, 2006, now U.S. Pat. No. 7,581,360, which is a continuation of U.S. application Ser. No. 09/960,537, filed on Sep. 21, 2001, now U.S. Pat. No. 7,310,915, which claims the benefit of U.S. Provisional Application No. 60/234,624, filed on Sep. 22, 2000, which applications are incorporated herein by reference in their entirety.
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Number | Date | Country | |
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20140237911 A1 | Aug 2014 | US |
Number | Date | Country | |
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60234624 | Sep 2000 | US |
Number | Date | Country | |
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Parent | 13553409 | Jul 2012 | US |
Child | 14275386 | US | |
Parent | 13084285 | Apr 2011 | US |
Child | 13553409 | US | |
Parent | 12533054 | Jul 2009 | US |
Child | 13084285 | US | |
Parent | 11552858 | Oct 2006 | US |
Child | 12533054 | US | |
Parent | 09960537 | Sep 2001 | US |
Child | 11552858 | US |