| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Static electricity monitoring device comprising a first footpad electrically insulated from a second footpad | US12356204 | 2009-01-20 | US07869183B1 | 2011-01-11 | Huynh Phuoc Tan; Julius A. Turangan; Muralidhar R. Dugyala |
| A static electricity monitoring device is disclosed for monitoring a user wearing a static control garment. The garment comprises a first bootie and a second bootie. The monitoring device comprises a first footpad for interfacing with the first bootie of the garment, and a second footpad for interfacing with the second bootie of the garment, wherein the first footpad is electrically insulated from the second footpad. | ||||||
| 162 | Monitoring device for use with an insulated dual portion garment | US11637527 | 2006-12-12 | US07869182B1 | 2011-01-11 | Huynh P. Tan; Julius A. Turangan; Muralidhar R. Dugyala |
| A method is disclosed for monitoring a user wearing a static electricity garment. The garment comprises a first conductive upper body portion including a first electrical interface, a second conductive upper body portion including a second electrical interface, a first user interface for electrically coupling the first conductive upper body portion to a first upper limb of the user, a second user interface for electrically coupling the second conductive upper body portion to a second upper limb of the user, and an insulative portion for electrically insulating the first conductive upper body portion from the second conductive upper body portion. To monitor the static electricity, the user touches the first electrical interface to a first lead of a monitoring device and touches the second electrical interface to a second lead of the monitoring device. | ||||||
| 163 | Electrically charged self-defense wearable | US10294103 | 2002-11-13 | US06961227B1 | 2005-11-01 | Adam Whiton; Yolita Nugent |
| A self-defense wearable with a body portion, an electrically conductive pathway applied over the body portion, an electrically charged seam construction for producing an electric charge relative to an outer surface of the body portion, a power source, an activating switch for inducing the self-defense wearable into a charged condition, and a wiring network for producing an electrical association between the electrically conductive pathway, the power source, and the at least one activating switch. The self-defense wearable can be an upper body covering, and the activating switch can be a compression activated switch disposed on a tongue disposed at a distal end of an arm of the self-defense wearable to underlie the wearer's palm whereby the self-defense wearable can be induced into a charged condition by a clenching of the wearer's hand. | ||||||
| 164 | Liquid impervious and pathogen impervious laminate having antistatic properties | US10325550 | 2002-12-19 | US20040121678A1 | 2004-06-24 | A. Frank Baldwin JR.; Jessica Z. Brown |
| The present invention provides a liquid impervious and pathogen impervious laminate comprising a breathable layer comprising an antistatic agent and a fibrous layer on the breathable layer. Preferably, the fibrous layer includes a thermally activated adhesive material that is used to bond the fibrous layer and the breathable layer together. | ||||||
| 165 | Enhanced interface for electrostatic discharge garment | US09401971 | 1999-09-24 | US06272694B1 | 2001-08-14 | Ron L. Weaver; R. Bruce Prime; Gary W. Knoth |
| An electrostatic discharge garment is formed from material having a grid of conductors for conducting static electricity. The conductors are overlapped at the seams of the garment and interconnected with conductive flat ribbons that extend throughout the garment. The garment also has external grounding fasteners which are joined to the grid and ribbons. A hole is formed in the garment at the site of each fastener. Each hole extends through the fabric, grid, and ribbons. An epoxy applicator injects a small amount of conductive epoxy adjacent to the hole and saturates the various elements. The fastener is then installed while the epoxy is still wet. After the epoxy cures, a flexible but resilient joint is formed between it, the fastener, the grid, and the ribbon. | ||||||
| 166 | Electricity shunting and rerouting device and method | US239774 | 1999-01-29 | US6147854A | 2000-11-14 | Garry William Kirschner |
| An electricity shunting and rerouting device designed as forming an integral part of a garment comprising conductive metal bracelets (and/or waistbands and/or anklets) joined by an insulated conductor, the size and type of which may vary depending on the application, thereby allowing the potentially harmful electrical current to flow through the insulated conductor/wire and rerouting the current away from the worker's inner parts, such as vital organs and muscles, thereby minimizing the health risk of electrocution. | ||||||
| 167 | Multi-path static control garment | US191625 | 1994-02-04 | US5440444A | 1995-08-08 | Kay L. Adams |
| A dual path static control garment is formed of a garment material having a continuous grid of conductive fibers throughout the body section and sleeves. One elastic wrist hugging cuff is formed of an electrically conductive material and thereby connects one wrist of the wearer, through the garment itself, to a first grounding terminal secured to a body section of the garment. A second and independent grounding path is provided from the second cuff to a second grounding terminal on the body section. The second path is provided by a cuff assembly having an inner conductive wrist hugging cuff and an outer nonconductive cuff connected to the garment sleeve. A conductive ribbon encased in an insulating sheath electrically interconnects the inner conductive cuff to the second grounding terminal and is insulated from the garment and its sleeves to provide the second independent grounding path. | ||||||
| 168 | Static control garment | US771308 | 1985-08-30 | US4596053A | 1986-06-24 | Lenard Cohen; Michael E. Gordon |
| A static control garment having torso and limb covering portions with first electrically conductive means in the garment positioned at a limb covering portion adapted to attach to a conductive strap, that encircles a limb of the body, second electrically conductive means in the garment positioned at a torso covering portion adapted to attach to electrical grounding means, and third electrically conductive means interconnecting the first and second electrically conductive means. | ||||||
| 169 | Antistatic clothing | US537400 | 1983-08-30 | US4546497A | 1985-10-15 | Kazumasa Ono; Koichi Okoshi |
| The invention provides antistatic clothing suitable for wear in a room which is kept clean. The clothing, such as working clothes, work shoes, etc., manufactured from a cloth having parallel electroconductive fibers woven therein, features the incorporation of an electroconductive material at overlapped or butt-joined seams between the pieces of cloth forming the clothing to ensure a perfect electrostatic connection of all the pieces of the clothing to minimize static charging on both the clothing and the wearer's body while preventing dust from gathering on the clothing to avoid dust from becoming a cause of problems such as electrostatic breakdown of circuit elements in a semiconductor integrated circuit production plant. | ||||||
| 170 | IMPROVED FLAME RESISTANT THERMAL LINERS AND GARMENTS MADE WITH SAME | EP17738914.5 | 2017-01-12 | EP3402355A1 | 2018-11-21 | STANHOPE, Michael T.; COLATRUGLIO, Matthew Lucius |
| Embodiments of the present invention replace relatively bulky nonwoven thermal insulating materials used in thermal liners with thin, lightweight, flexible films that maintain or improve TPP performance while reducing the thickness, and enhancing the flexibility, of the thermal liner so as to increase wearer comfort. Moreover, the films incorporated into the thermal liners can be both air and vapor permeable such that the TPP performance is not realized at the expense of THL performance. Rather, the THL performance of garments incorporating embodiments of thermal liners contemplated herein is comparable to—if not improved over—garments formed with traditional thermal liners. | ||||||
| 171 | VERFAHREN ZUR HERSTELLUNG VON ELEKTRO-ISOLATIONSPRODUKTEN AUS SYNTHETISCHEM POLYISOPREN (IR) SOWIE DERARTIGE ERZEUGNISSE | EP16816237.8 | 2016-12-09 | EP3386738A1 | 2018-10-17 | FRAUENDORF, Jose Luiz; VON PLANTA, Felix |
| The invention relates to a method according to which a) in an immersion process, a molded body (4) is immersed in a liquid synthetic polyisoprene (IR) (synthetic latex), wherein the molded body (4) has first been treated with coagulants (coagulating agents) or thermally treated, b) after exchanging, the synthetic polyisoprene layer is left on the molded body (4) and freed of all salts by means of water, c) afterward, the synthetic polyisoprene layer is vulcanized together with the molded body (4) in a furnace, d) the synthetic polyisoprene layer is removed from the molded body (4), e) the salts on the synthetic polyisoprene molded piece (11), eliminated by the vulcanization, are washed away with water and a chlorinated solution, f) the synthetic polyisoprene molded piece (11) is halogenated by means of a halogenation solution, to neutralize the pH value thereof and to increase the suppleness thereof in contact with body skin, g) the synthetic polyisoprene molded piece (11) is dried. The electrical safety gloves thus produced are much more comfortable to wear, provide improved insulation protection, even with thinner wall thickness, and last longer. | ||||||
| 172 | BEKLEIDUNGSSTÜCK, INSBESONDERE FÜR EINEN MENSCHLICHEN KÖRPER | EP16777595.6 | 2016-09-23 | EP3352601A1 | 2018-08-01 | Dratva, Christian |
| A garment, in particular for a human body, is composed of several sections (11, 12, 13) that are connected together and are each made of one or more plies (15, 16). For one ply (15) in each case, such a fabric is usable for the sections (11, 12, 13) that the in particular human body is shielded from electromagnetic radiation thereby. This at least one ply (15) is advantageously knitted or woven from a fabric made of metal-coated threads, filaments and/or yarns for shielding the electromagnetic radiation. In this way, the human body is shielded from the electromagnetic fields that occur increasingly frequently and with greater intensity, in particular in the high-frequency range. | ||||||
| 173 | ARC RESISTANT ACRYLIC FIBER, FABRIC FOR ARC-PROTECTIVE CLOTHING, AND ARC PROTECTIVE CLOTHING | EP15876989.3 | 2015-12-11 | EP3243940A1 | 2017-11-15 | OHZEKI Tatsuro; UCHIBORI Keita; MIO Wataru; TANAKA Yasunori; UTSUNOMIYA Yuto |
The present invention relates to an arc resistant acrylic fiber that comprises an infrared absorber in an amount of 1 wt% or more and 30 wt% or less with respect to the total weight of an acrylic polymer. The present invention also relates to a fabric for arc-protective clothing including the arc resistant acrylic fiber in which the content of the infrared absorber with respect to the total weight of the fabric is 0.5 wt% or more. The present invention also relates to a fabric for arc-protective clothing including a cellulosic fiber that further comprises an infrared absorber and a flame retardant and in which the average total reflectivity with respect to incident light with a wavelength of 750 to 2500 nm is 60% or less. The present invention also relates to an arc-protective clothing including the fabric for arc-protective clothing. |
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| 174 | DELAMINATION CAVITY IN DIPPING MANUFACTURED ARTICLE FOR EMBEDDED DEVICE | EP15163605.7 | 2015-04-14 | EP2937003A1 | 2015-10-28 | Joanny, Romain; Gallardo, Francois |
An article of protective clothing (110, 200, 300, 400, 500). The article of protective clothing (110, 200, 300, 400, 500) comprises an inner rubber layer (305) and an outer rubber layer (310) laminated over the inner rubber layer (305) excepting at a local delamination area between the inner rubber layer and the outer rubber layer that defines a delamination pocket (120, 205, 315, 410, 515).
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| 175 | ACCESSORY FOR ANTI-ELECTRIC-SHOCK GARMENT | EP07736715.9 | 2007-03-22 | EP2146593A1 | 2010-01-27 | CARRARO, Rinaldo |
| The present invention relates to a glove or a boot, for operations on live high-voltage wires, comprising a first layer made of polymer fibre covered with conductive material and a second layer comprising a second material having high mechanical properties, joined together in a stable manner, wherein an end portion exhibits the first material both on the outside and on the inside. | ||||||
| 176 | DISSIPATION OF STATIC ELECTRICITY IN WORKWEAR | EP99936020.9 | 1999-02-26 | EP1058506B1 | 2002-04-10 | HURST, Norman John Alfred, 12 Chapel Lane; BARKER, Michelle Sharon, 10 Morris Gardens |
| An article of workwear comprises a plurality of components (17, 18) incorporating electrically conductive fibres (21), and an electrically conductive member (20) bridging the junction between adjacent components. The electrically conductive member comprises a strip or tape (20) incorporating a plurality of electrically conductive filaments or yarns (22), each filament or yarn being incorporated in the strip or tape in such a manner as to have alternate portions of the filament or yarn exposed at opposite faces of the strip or tape. The strip or tape may be secured to each of the adjacent components by stitching (19). | ||||||
| 177 | ELECTROMAGNETIC FIELD DEFLECTING GARMENT | EP98964433.1 | 1998-11-23 | EP1033922A1 | 2000-09-13 | Alpini, Edilio Livio |
| An electromagnetic field deflecting garment made up of a dry knitted conductive fabric (2) with conductive filaments (3) disposed in parallel fashion, edged with a lattice conductive fabric (4) with filaments (5) disposed in a crisscrossed pattern, an electrical circuit (10) able to disperse the electromagnetic signal coming from the garment being connected to said fabric (4). | ||||||
| 178 | Textile fabric shielding electromagnetic radiation, and clothing made thereof | EP90101342.5 | 1990-01-23 | EP0383059B1 | 1992-12-09 | Dordevic, Zoran, Prof. |
| 179 | GARMENT HAVING ANTISTATIC CAPABILITY | EP16857414.3 | 2016-10-18 | EP3366151A1 | 2018-08-29 | NAKAHASHI, Shingo; FUKADA, Masashi; IDE, Atsushi |
Provided is a garment that has an antistatic capability and exhibits washing durability without, when producing a woven or knitted fabric, using a conductive fiber at a part that becomes a wearing part of the woven or knitted fabric, and without applying an antistatic treatment to the woven or knitted fabric, but rather by incorporating a conductive fiber into a sewing thread. The garment according to the present invention has a conductive fiber incorporated in a sewing thread (linking thread), and has a frictional charge amount of 0.8µC or less per garment. The garment preferably has an electric resistance value of 1×104 Ω - 5×108 Ω per 1cm length of the conductive fiber in a fiber axis direction thereof, and the sewing thread preferably includes the conductive fiber in an amount of 30 - 100 mass%. |
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| 180 | HEADGEAR WITH FACE SHIELD FOR SHIELDING GARMENT | EP17182932.8 | 2017-07-25 | EP3281540A1 | 2018-02-14 | Carraro, Rinaldo |
The present invention relates to a headgear (1) for a shielding garment (1) for operating on components exposed to high voltage, or for operating at a safe distance proximate to high voltage parts, or for activities involving exposure to high electric and/or electromagnetic fields at any frequency and voltage. The headgear (1) comprises a cover element (2) which is configured to cover the head of an operator and has an opening (3) at least at an upper portion of the operator's face. The headgear (1) further comprises a transparent face shield (7) made of an electrically conductive fabric (9). The face shield (7) is removably coupled to the cover element (2) to close the opening (3) and is electrically connected to the shielding garment (17). The fabric (9) has a density ranging from 25 to 40 g/m2 and comprises a plurality of yarns (11) having a yarn count ranging from 10 to 30 deniers, and each comprising a respective core (11a) externally covered with a coating (11b) made of a conductive metal.
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