81 |
Matrix fabrication |
US23687572 |
1972-03-22 |
US3838241A |
1974-09-24 |
WEISMANN V |
In the manufacture of a modular building panel having a threedimensional welded wire matrix, the matrix is comprised of a plurality of essentially identical truss-like matrix subunits which are assembled in a machine which includes means for periodically adjusting for the adverse effects of tolerance accumulation so that the matrix subunits may be fabricated in an essentially continuous array in which each subunit has a length within predetermined tolerance limits. A plurality of strips of prefabricated truss units are introduced in synchronism into a matrix fabrication unit which is insensitive to the particular machine upon which matrix subunits were fabricated. In the matrix fabrication machine, a welding station is provided for each subunit of the matrix and includes coaxially aligned first and second electrodes movable toward and away from each other along their common axis, and a central electrode. The central electrode has a welding position in which the central electrode intersects the common axis of the adjacent first and second electrodes to serve as a conductive anvil for the first and second electrodes. The central electrode at each station also has a retracted position spaced from the common axis of the adjacent first and second electrodes to accommodate movement of material to be welded, including the aforesaid matrix subunits, into place between the first and second electrodes.
|
82 |
Method for manufacturing very large heat exchangers |
US3703028D |
1970-07-28 |
US3703028A |
1972-11-21 |
BOSQUAIN MAURICE; BOURJOT MARCEL; KIRSCH MAURICE |
Process for manufacturing a heat exchanger of the type with a nest of tubes formed of concentric layers of wound pipes between a central core and an outside covering, means of distributing and/or collecting fluid at both ends of the nest of tubes, as well as means for transferring fluid longitudinally in the interstitial space between the wound pipes, in which the core is placed in the space with its axis vertical, and the pipes, previously out to the required length, attached at one end in a distribution or collection system, wound round the said core by means of a rotary movement and a translation movement in relation to the core, and attached at the other end to the other collection and/or distribution device respectively.
|
83 |
Apparatus for making a centrifugal basket |
US3520166D |
1967-02-03 |
US3520166A |
1970-07-14 |
STEELE CLARENCE R; ALLEN NORVAL F |
|
84 |
Apparatus for making well screen |
US3469609D |
1967-07-11 |
US3469609A |
1969-09-30 |
SMITH HOWARD F |
|
85 |
Flat wire basket and method of making the same |
US64853267 |
1967-06-16 |
US3410546A |
1968-11-12 |
DARINGER RONALD G; WILLEY JACK S |
|
86 |
Automatic apparatus for making fine grid mesh |
US14153150 |
1950-01-31 |
US2725901A |
1955-12-06 |
ENGEL WILLIAM T |
|
87 |
Wire knitting machine |
US25261439 |
1939-01-24 |
US2223354A |
1940-12-03 |
DE MILLAR FLOYD O |
|
88 |
Machine for making grids |
US60714332 |
1932-04-23 |
US2034653A |
1936-03-17 |
FLAWS JR JOHN |
|
89 |
Wire fabric |
US61325532 |
1932-05-24 |
US1939002A |
1933-12-12 |
DUREPO JOSEPH E |
|
90 |
Well strainer and process of |
US61761632 |
1932-06-16 |
USRE18968E |
1933-10-10 |
|
|
91 |
Method of assembling cage tops |
US41230229 |
1929-12-07 |
US1815982A |
1931-07-28 |
LITTLE EARL W |
|
92 |
Wire-bag-making machine |
US21672427 |
1927-08-31 |
US1741623A |
1929-12-31 |
YVES GUYON; CHARLES MARTY RENE HENRI |
|
93 |
Automatic machine for making metallic frames for wreaths |
US40773120 |
1920-09-02 |
US1394796A |
1921-10-25 |
CHARLES SMITH |
|
94 |
Process of making wire fabric |
US14563517 |
1917-01-31 |
US1359667A |
1920-11-23 |
BROWN HARVEY E |
|
95 |
Fabric-making machine. |
US1913796800 |
1913-10-23 |
US1148766A |
1915-08-03 |
FREDERICK CLARENCE H |
|
96 |
PET CAGE AND DEVICE AND METHOD FOR MANUFACTURING THE SAME |
US15275325 |
2016-09-23 |
US20180050376A1 |
2018-02-22 |
Hongkun LIANG |
A pet cage, including: a first lateral part, a second lateral part including a horizontal rod, and a connecting structure. The connecting structure includes a plurality of vertical rods. Each vertical rod includes an end including a swivel hook. The swivel hook includes: a front section, a middle section, and a rear section. The first lateral part and the second lateral part are adjacent to each other, and the connecting structure is disposed therebetween to connect the first lateral part and the second lateral part. The plurality of vertical rods is disposed on the first lateral part. The swivel hook is disposed at the end of each vertical rod and adapted to encircle the horizontal rod of the second lateral part. The angle between the rear section and the vertical rod of the first lateral part is between 80° and 100°. |
97 |
PLANT GROWTH SUPPORT AUTOMATIC MOLDING MACHINE |
US15186943 |
2016-06-20 |
US20170087674A1 |
2017-03-30 |
Yi CHOU; Haiyan WANG |
The present disclosure relates to an automatic forming machine for plant growth supports, comprising a ring rolling system with a ring rolling unit, a mold system with a mold unit, and a welding system, which are all disposed on a machine frame, wherein the ring rolling unit can roll a metal wire and make the metal wire be formed into a ring with an opening in the mold unit; the mold system is for carrying the ring and making two free ends of the ring with an opening aligned or alternately overlap with each other; the welding system welds can weld the opening of the ring carried by the mold unit, causing the ring to become a closed ring. The present disclosure has a high automatic degree and can reduce the production time and labor cost. |
98 |
Method for manufacturing sandwich panel having core of truss structure |
US13977421 |
2011-02-14 |
US09328511B2 |
2016-05-03 |
Ki Ju Kang; Ki Won Lee; Hun Ho Kwak; Hyun Hee Lee; A Reum Kim |
Provided is a method for manufacturing a panel including a core having a truss structure between upper and lower face sheets. The manufacturing method includes disposing the upper and lower face sheets in parallel to each other at a predetermined distance, repeatedly performing, several times, a process in which a plurality of flexible wires vertically pass through the upper and lower face sheets to reciprocation-connect the upper and lower face sheets to each other, thereby sewing the upper and lower face sheets after the upper and lower face sheets horizontally move in parallel to each other, and maximally spacing both face sheets in a vertical direction while being maintained in a parallel to each other after a relative displacement of the upper and lower face sheets is solved, and fixing the face sheets and the wires to each other. |
99 |
METHOD OF MANUFACTURING A COMPOSITE NONWOVEN FABRIC SUITABLE FOR GEOTEXTILE USE |
US14818909 |
2015-08-05 |
US20150337467A1 |
2015-11-26 |
Kurt H. Schild, III; Paul Born; Steven A. Bouse; Alex Krupnik |
A composite fabric, suitable for geotextile use, is manufactured by obtaining a web of metal material consisting of a plurality individual strands of metal that are substantially parallel to each other, are substantially unidirectionally oriented, and have not undergone any carding, garneting, lapping, or needle punching processing, and wherein the individual strands of metal have not been cut to any particular length, and obtaining a scrim layer having a porous, open woven configuration. The web of metal material is attached to the scrim layer to form the composite fabric material. The attachment may be by needle punching the web of metal material to the scrim layer. |
100 |
PRODUCTS, SYSTEMS, AND METHODS FOR PLACEMENT OF COVERS ON METALLIC SPACERS OF CONCRETE REINFORCEMENT |
US14431769 |
2013-09-27 |
US20150239031A1 |
2015-08-27 |
Antonios Anagnostopoulos |
A product cover for the end of wire (1) of spacer meshes, and a processes and a systems for cover placement on ends of said wires (1), The wire ends of transverse wires are formed in a manner resulting in indentations and protrusions on their surfaces, so that the placement of a cover induces flow of its plastic material and creates a stable joining. Covers are serially guided inside a guide so that one of them is guided to a rotor. This rotor is then rotated to line up with the wire and a plunger for placement of the cover. Then, by the action of the plunger, this cover is pushed until fitted on the end of the wire. |