101 |
MODULAR LAYER HORIZONTAL STORAGE MODULE AND METHODS OF MANUFACTURING SAME |
US13965046 |
2013-08-12 |
US20140042159A1 |
2014-02-13 |
Ahmad E. Salih |
A horizontal storage module (HSM) assembly generally includes a base portion including a plurality of segments that are vertically layered on top of each other and a lid portion. A method of constructing an HSM assembly generally includes forming a plurality of segments for the base portion of the HSM assembly, and vertically stacking the segments. |
102 |
DECONSTRUCTABLE TANKS FOR USE IN HIGH VOLUME FLUID TRANSFER OPERATIONS AND METHODS AND SYSTEMS USING SAID TANKS |
US13483986 |
2012-05-30 |
US20130319552A1 |
2013-12-05 |
Timothy Craig Svarczkopf; Dean Matthew Grose; Tad William Schirmer; Sean Michael Beecroft; Robert Glenn Hirtz; Albert Eugene Butterfield, IV |
Disclosed is a deconstructable water storage tank assembled using modular components including wall panels, a base ring and a membrane for use in large volume fluid transfer operations such as hydraulic fracturing. Also disclosed are methods for assembling the tank for use at a first hydraulic fracturing site, and disassembling and transporting the tank components for redeployment at a second hydraulic fracturing site. A fluid management system is also disclosed utilizing the deconstructable storage tank. |
103 |
PACKAGING |
US13756661 |
2013-02-01 |
US20130146606A1 |
2013-06-13 |
Manuel BLAY ORENGA; Javier Ramon GARCIA ARANDA; Maria LOPEZ CALVO; Saad Saleh AL-AZWARI |
Packaging comprising separate laminar bodies that form the base with opposing parallel sides and two pairs of side walls (2-3) that have, near the lower edges thereof, slots (5) into which tabs (4) on the edges of the base fit, the side edges of the second pair of side walls (3) having further tabs (4′) that fit into further slots (5′) made near the side edges of the first pair of side walls (2), the tabs (4-4′) having harpoon-shaped retention stops that hook over areas adjacent to the ends of said slots (5-5′) made in all the side walls (2-3). The packaging may also include a flat element at the top (10, 10′, 10″) that acts as a lid for the packaging and makes the structure of the packaging more sturdy. |
104 |
POLYMER COMPOSITION, METHOD FOR APPLYING SUCH COMPOSITION AND USE OF SUCH COMPOSITION IN RAILWAY TRACK STRUCTURES |
US13701094 |
2011-06-01 |
US20130087566A1 |
2013-04-11 |
Gerrit M. Van Der Houwen; Pieter J. Kerkhoven; Stefanus J.M. Koteris |
A polymer composition comprises a) a component 1 comprising a silane-terminated prepolymer; and b) a component 2 comprising water; and c) a component 3 comprising a silanol condensation catalyst. The composition is packaged in at least two separate packages prior to application, wherein no package contains all three components 1 and 2 and 3. In the composition water is present in an amount of 0.01 to 10 pbw per 100 pbw of prepolymer present in the composition, and the apparent viscosities of each of the packages is at most 95 Pa·s (Brookfield viscosity (A/6/10)) according to ISO 2555 at 23° C. The composition may suitably applied to railway track structures for the dampening of noise and vibrations of rails. |
105 |
STEEL WRAPPED PRESSURE VESSEL |
US13686331 |
2012-11-27 |
US20130082066A1 |
2013-04-04 |
Amit Prakash; George Richard Sharp; Brian Townsend Deeken; William James Head; William H. Thomson |
A light weight pressure vessel (10) has been proposed. The vessel (10) is made of a steel, aluminum or non-metal liner (11) which is reinforced with high strength steel wires (21) of 2000-7000 MPa strength. The matrix is filled with a polymer epoxy resin (45). A top layer of fabric tape (33) soaked in resin (45) has been used to embed the finish end (24) of the wire (21) and to provide a protective layer over the wire reinforced area. The mesh or net fabric wrap tape (33) has periodic openings to allow penetration of polymer epoxy resin (45). A top coat of a UV resistant polyurethane paint (47) has been applied. |
106 |
ENVIRONMENTALLY FRIENDLY PACKAGING ASSEMBLY AND A CANDLE EMBODYING THE SAME |
US13038037 |
2011-03-01 |
US20110256492A1 |
2011-10-20 |
Catalina Navarro |
An environmentally friendly product packaging assembly having a secondary use after a product has been removed therefrom. The packaging assembly comprises a candle having a wall made of a vaporizable material and defining a cavity therein for retaining the product. The candle includes a wick embedded in the wall in a spiral, coiled or helical fashion and positioned to substantially encircle the cavity. The assembly may include a containment mechanism that at least partially restricts access to the cavity and thereby aids in retaining the product therein. The assembly may further include a base positioned under a bottom end of the candle. The containment mechanism and base may themselves be made out of recyclable or combustible materials. Once the product has been removed from the cavity, the assembly may be used as a conventional candle. The candle wall is vaporized leaving little to no waste for disposal. |
107 |
Gable top container with pull tab |
US09530144 |
2000-06-19 |
US06427908B1 |
2002-08-06 |
Jonathan Paul Laker; Kirk Anthony Laker |
A boxed end container is shown having one end closed by a transverse ridge seal and carrying a pull tab. The pull tab allows a separating force to be applied to the ridge seal of the sealed container to separate at least part of the ridge seal and thus open the container and allow discharge of its contents. The pull tab is a generally planar member having an axially extending shank member with a proximal end portion which can be gripped and pulled by a user and a distal end portion having foot members extending transversely to each side of thereof. The shank and foot members are substantially co-planar with one another. The pull tab is secured by the foot members externally to a wall of the container at or adjacent to the ridge seal of the container. |
108 |
Asphalt packages with consumable containers |
US990011 |
1997-12-12 |
US5992628A |
1999-11-30 |
Donn R. Vermilion; John L. Buc; Jon S. Wright; Jorge A. Marzari; Jeremy Campbell; Frederick H. Ponn; Frank L. Burg |
Asphalt is packaged in consumable containers (10) having breakage means, such as short notches or long channels (110, 111), to allow for easy breakage into smaller portions for ease of handling and feeding into kettles. The containers are advantageously made of an asphalt-polymer composition so that the entire asphalt package may be melted in a kettle, e.g., for use in a roofing or paving application. The containers may have various features to enhance processability and handleability, including a generally rectangular shape and multi-faceted or stepped sides 20 and/or walls 30 with handhold portions and/or scooped portions. |
109 |
Asphalt packages with consumable containers |
US810882 |
1997-03-05 |
US5765686A |
1998-06-16 |
Jon S. Wright; Jorge A. Marzari; Donn R. Vermilion; Jeremy Campbell; John L. Buc; Frederick H. Ponn; Frank L. Burg |
Asphalt is packaged in consumable containers (10) having breakage means, such as short notches or long channels (110, 111), to allow for easy breakage into smaller portions for ease of handling and feeding into kettles. The containers are advantageously made of an asphalt-polymer composition so that the entire asphalt package may be melted in a kettle, e.g., for use in a roofing or paving application. The containers may have various features to enhance processability and handleability, including a generally rectangular shape and multi-faceted or stepped sides 20 and/or walls 30 with handhold portions and/or scooped portions. |
110 |
Method of making a Hawaiian nutty gram mailing receptacle |
US568972 |
1990-08-17 |
US5005336A |
1991-04-09 |
Melvin R. Bloom |
A method of making a mailing receptacle from a coconut, comprising the steps of, making a hole in the coconut so that access to the inner compartment of the coconut can be obtained, draining out the milk of the coconut by way of the hole so that the inner compartment of the coconut becomes dry, filling the coconut with a preserving solution by way of the hole so that the coconut will be preserved, waiting a predetermined period of time so that the preserving solution has preserved the coconut, emptying the coconut of the preserving solution by way of the hole so that the preserving operation is completed, letting the coconut dry so that items can be put into it by way of the hole, inserting items to be mailed into the hole until times drop into the inner compartment of the coconut, and, sealing the hole in the coconut so that the mailing receptacle is ready for transit. |
111 |
Method and apparatus for filament winding about three axes of a mandrel and products produced thereby |
US3740285D |
1970-04-23 |
US3740285A |
1973-06-19 |
GOLDSWORTHY W; BUNNELL J |
AN APPARATUS AND METHOD FOR WINDING FIBERGLASS FILAMENT ABOUT THREE AXES OF A SUBSTANTIALLY RECTANGULAR MANDREL.FIVE BASIC METHODS ARE EMPLOYED WHERE THE FILAMENT FEEDING HEAT IS ROTATABLE AND RECIPROCATIVE WITH RESPECT TO THE MANDREL AND WHERE THE MANDREL IS ROTATABLE AND RECIPROCATIVE WITH RESPECT TO THE FILAMENT FEEDING HEAD. SIMILARLY, ONE OF THE ELEMENTS CAN BE ROTATED AND THE OTHER THEREOF CAN BE RECIPROCATABLE.THE WINDING APPARATUS INCLUDES A SUPPORTING TABLE AND A SERIES OF CLAMPS WHICH ARE DESIGNED TO AUTOMATICALLY SHIFT AND ROTATE THE MANDREL TO THE SECOND AND THIRD AXIS POSITIONS, FOR WINDING ABOUT THE THREE AXES OF THE MANDREL. A SECOND EMBODIMENT OF THE APPARATUS COMPLOYS MANDREL TABLES LOCATED AT 90* PLANES WITH RESPECT TO EACH OTHER. THE MANDREL TABLES SERVE AS SUPPORTS AND ALSO AS CLAMPING MEMBERS FOR CHANGING THE POSITION OF THE MANDREL. A PLUG-IN PROGRAMMING MECHANISM IS ALSO PROVIDED FOR OPERATING THE APPARATUS ON AN AUTOMATIC BASIS.
|
112 |
Collapsible container |
US4347970 |
1970-06-04 |
US3700134A |
1972-10-24 |
BLANCHARD RUSSELL T |
A collapsible container having high stacking strength and having means on the ends thereof cooperating with means on the sides, top and bottom to maintain the container in an operative condition without the use of fasteners.
|
113 |
Filament wound vessel |
US3486655D |
1967-04-03 |
US3486655A |
1969-12-30 |
RAGETTLI CHRISTIAN |
|
114 |
Tubular protector and blanks for making same |
US3458109D |
1967-08-10 |
US3458109A |
1969-07-29 |
COMPTON DAVID D; HARLAN DAVID D |
|
115 |
Manufacture of containers for liquids |
US55066166 |
1966-05-17 |
US3406442A |
1968-10-22 |
ROSAT GONZALEZ ANTONIO |
|
116 |
Filament wound vessel |
US55160866 |
1966-05-20 |
US3394738A |
1968-07-30 |
BARON DAVID J; CHEN STANLEY S H |
|
117 |
Filament wound vessel |
US36954164 |
1964-05-22 |
US3266660A |
1966-08-16 |
CHRISTIAN RAGETTLI |
|
118 |
Pressure vessel and method of making the same |
US84982059 |
1959-10-30 |
US3073475A |
1963-01-15 |
SOLOMON FINGERHUT |
|
119 |
Container structure |
US68007157 |
1957-08-26 |
US2939601A |
1960-06-07 |
EVANS WILLIAM I; ELIAS BLANCO |
|
120 |
Cigar shaped liquid container |
US30975052 |
1952-09-16 |
US2720307A |
1955-10-11 |
MORGAN REGINALD M |
|