| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 编网切割刀及自动编网机 | CN201610136251.1 | 2016-03-10 | CN105562564A | 2016-05-11 | 张磊; 龚康; 刘刚; 段云峰; 李建国; 王宁 |
| 本发明公开了一种编网切割刀,包括主刀和副刀,所述主刀和所述副刀配合设置,所述主刀至少包括两条用于分别切断菱形网口相邻两根目标网丝的第一剪刃,两条所述第一剪刃的夹角角度与两根目标网丝的夹角角度的和为180度。通过使两条剪刃的夹角角度与两根目标网丝的夹角角度的和为180度,使得在使其中一条剪刃与其中一个目标网丝垂直设置时,另一条剪刃则可以与其中另一个目标网丝垂直设置,进而能够保证同时切割菱形网口相邻两根网丝时,两根网丝均被切割出平口。本发明还公开了一种包括上述编网切割刀的自动编网机。 | ||||||
| 2 | MESH SHEET, SYSTEMS AND DEVICES THAT INCORPORATE A MESH SHEET, AND METHODS AND EQUIPMENT FOR FABRICATING A MESH SHEET | US15969033 | 2018-05-02 | US20180318908A1 | 2018-11-08 | Nick STERGIOULAS |
| An apparatus for manufacturing a second mesh roll from a first mesh roll is disclosed. The apparatus comprises an unreeling shaft, an edge treatment unit, and a reeling shaft. The unreeling shaft is configured to rotatably support the first mesh roll and provide an unreeled length of the first mesh roll in a longitudinal direction. The edge treatment unit is configured to receive the unreeled length of the first mesh roll and cut the first mesh roll along a transverse axis and treat one or more edges of the first mesh roll to form the second mesh roll. The reeling shaft is configured to receive and rotatably support the second mesh roll. | ||||||
| 3 | Device for cutting welded wire structures | US09645134 | 2000-08-24 | US06374499B1 | 2002-04-23 | Paul W. Cochran |
| A device for cutting a welded wire structure is provided. The welded wire structure includes a first wire and a second wire which are joined together and are offset relative to each other. The device includes a first arm pivotally connected to a second arm. The first arm includes a handle and a jaw connected thereto. The second arm includes a handle and a jaw connected thereto. The jaws are offset from each other. The jaw of the first arm includes a U-shaped portion into which the first wire is capable of being positioned during cutting. The jaw of the second arm includes a notch provided in a surface thereof which faces the jaw of the first arm. The second wire is capable of being positioned within the notch during cutting. | ||||||
| 4 | Tucking device for wire weaving machines and method | US612427 | 1996-03-07 | US5701936A | 1997-12-30 | James R. Miller |
| Tucking apparatus for weaving multiple narrow panels having a selvage on both sides of each panel upon a wire weaving machine has a cutter (B) operated by suitable linkage from a cutter cam (A) mounted upon a transverse synchronizing shaft and a forming finger cam (C) also mounted upon the synchronizing shaft which positively operates opposed forming fingers (D). | ||||||
| 5 | Meshes cutting machine | US47653474 | 1974-06-05 | US3890864A | 1975-06-24 | KOBAYASHI YASUNOBU; OGAWA HIKARU |
| A meshes cutting machine for permitting the continuous cutting of a length of meshes which are being moved or advanced continuously rather than intermittently. The meshes cutting machine includes a pair of cooperating cutting edges placed in a vertical direction, with the upper cutting edge being stationary and the lower cutting edge being adapted to move vertically to cut the widthwise members of the meshes; a guide groove adapted to guide the meshes which are cut continuously; and a drive pawl mechanism adapted to drive the meshes forward and, at the same time, to position the lengthwise member composed along the advancing direction of the meshes at a desired spacing from the cutting line of the meshes maintaining parallelism with the aforesaid cutting line and with the advancing direction. This drive pawl mechanism may shift in a direction perpendicular to the cutting line by means of a screw mechanism to change the aforesaid spacing of the lengthwise members of the meshes from the cutting edges.
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| 6 | Link-mesh machine | US47521421 | 1921-06-06 | US1514635A | 1924-11-11 | OSCAR SODERSTROM; HARRIS LYNDS FRED |
| 7 | Link-mesh-cutting machine | US48372021 | 1921-07-11 | US1447736A | 1923-03-06 | OSCAR SODERSTROM |
| 8 | 網入り板ガラス用網とその製造方法 | JP2003532226 | 2002-09-27 | JPWO2003028919A1 | 2005-01-13 | 原田 伸一; 伸一 原田; 太吉 新井; 隆佳 松井; 尚之 土井; 直毅 沖野; 伊藤 純也; 純也 伊藤; 積 戸田 |
| 工業生産可能なステンレス鋼製の網が挿入された網入り板ガラスに用いられる網を提供する。ステンレス鋼製の線材を交差させた網入り板ガラス用網であって、前記線材の直径が0.30mm〜0.45mmであるとともに、前記線材同士の交差部が溶接されている網入り板ガラス用網。当該交差部の厚さが、その交差部において交差する2本の線材の直径の合算値の82%〜97%であることが好ましい。また、線材の20〜700℃における平均線膨張係数が14×10−6/℃以下であり、かつ、700℃における引張強度が200N/mm2以下であることが好ましい。 | ||||||
| 9 | JPS53144B2 - | JP6425973 | 1973-06-05 | JPS53144B2 | 1978-01-05 | |
| 10 | JPS5019083A - | JP6425973 | 1973-06-05 | JPS5019083A | 1975-02-28 | |
| 11 | JPS6347531B2 - | JP11429779 | 1979-09-07 | JPS6347531B2 | 1988-09-22 | GERUHARUTO RITSUTAA; KURAUSU RITSUTAA; HANSU GETSUTO; YOOZEFU RITSUTAA |
| 12 | JPS614604B2 - | JP21760982 | 1982-12-09 | JPS614604B2 | 1986-02-12 | BABA DENJIRO; TSUJIMOTO WAHEI |
| 13 | Method of cutting grid | JP11429779 | 1979-09-07 | JPS5540096A | 1980-03-21 | GERUHARUTO RITSUTAA; KURAUSU RITSUTAA; HANSU GETSUTO; YOOZEFU RITSUTAA |
| 14 | Shear for cutting longitudinal portion materials*which are mutually parallel* of grating or grating structure | JP2260479 | 1979-03-01 | JPS54127086A | 1979-10-02 | HANSU GETSUTO; YOOZEFU RITSUTAA; KURAUSU RITSUTAA; GERUHARUTO RITSUTAA |
| 15 | And a method of manufacturing the same wire-reinforced plate glass for the network, wire-reinforced plate glass | JP2003532226 | 2002-09-27 | JP4535726B2 | 2010-09-01 | 純也 伊藤; 伸一 原田; 尚之 土井; 積 戸田; 太吉 新井; 隆佳 松井; 直毅 沖野 |
| 16 | Cutting facility for cutting grid piece of selective length from grid structure | JP23947591 | 1991-09-19 | JPH05146911A | 1993-06-15 | GERUHARUTO RITSUTERU; KURAUSU RITSUTERU; GERUTO YAARUBATSUHAA; PEETAA FUYURUNDERUFURAA |
| PURPOSE: To avoid risk of generating deformation and breakage on a cutting tool caused by action of shearing force to be generated in cutting, by accurately conveying a grid structure to a cutting device and fixing it in the cutting position. CONSTITUTION: A stopper 37 for the start end of a grid structure R to be supplied is rotatably provided in a feeding flat surface 0-0. An additional feeding device 3 capable of positioning the grid structure R from the position specified by the stopper relatively to the cut flat surface S-S is provided. A guide beam 26 and a cutter beam 27 of a cutting device 4 are rotatably provided and engaged with a supporting device 28 so arranged as to be adjusted in the height in the cutting flat surface S-S in the operating position. COPYRIGHT: (C)1993,JPO | ||||||
| 17 | JPS6157128B2 - | JP2260479 | 1979-03-01 | JPS6157128B2 | 1986-12-05 | HANSU GETSUTO; YOOZEFU RITSUTAA; KURAUSU RITSUTAA; GERUHARUTO RITSUTAA |
| 18 | Wire net cutting edge | JP21760982 | 1982-12-09 | JPS59107823A | 1984-06-22 | BABA DENJIROU; TSUJIMOTO WAHEI |
| PURPOSE:To make the cutting edges of the wire net, consisting of a plurality of metal rods intersecting orthogonally, dull to facilitate the handling thereof by a method wherein a cutter is formed by the continuous arrangement of chevron edges of a lower fixed edge and an upper movable edge while both edges of the chevron edge of the lower fixed edge are slanted into specified directions. CONSTITUTION:The cutting edges are constituted by the combination of the lower fixed edge 5 and the upper movable edge 6. The wire net A is advanced onto the lower fixed edge 5 while the upper movable edge 6 is lowered to cut the wire net A. In this case, the lower fixed edge 5 is formed by arranging a multitude of chevron edges 7 of same shape continuously like a saw teeth. One of the edge 8 of the chevron edge 7 is provided with an inclination orthogonal to a group of metal rods 3 of the wire net A while the other edge 9 thereof is provided with another inclination orthogonal to the group of metal rods 4 of the same. On the other hand, the upper fixed edge 6 is formed by arranging continuously the chevron edges 10 adaptable to the lower fixed edge 5. According to this method, each metal rods 3, 4 of the wire net A are cut vertically with respect to the lengths thereof and the sharpness of cut ends is eliminated thereby facilitating the handling thereof. | ||||||
| 19 | WIRE FOR WIRED SHEET GLASS AND METHOD OF MANUFACTURING THE WIRE | EP02800273 | 2002-09-27 | EP1430972A4 | 2005-04-13 | HARADA SHINICHI; ARAI DAIKICHI; MATSUI TAKAYOSHI; DOI NAOYUKI; OKINO NAOKI; ITO JUNYA; TODA TSUMORU |
| Wire used for a wired sheet glass having industrially manufacturable stainless steel wire materials inserted therein in the form of crossing each other, wherein the diameter of the wire material is 0.30 to 0.45 mm and the crossed parts of the wire materials are welded to each other, the thickness of the crossed parts should desirably be 82 to 97% of the added value of the diameters of two wire materials crossing each other at the crossed parts, an average linear expansion coefficient of the wire material at the temperature of 20 to 700 °C should desirably be 14 x 10-6/°C or less, and the tensile strength thereof at the temperature of 700°C should desirably be 200 N/mm2 or less. | ||||||
| 20 | WIRE FOR WIRED SHEET GLASS AND METHOD OF MANUFACTURING THE WIRE | EP02800273.1 | 2002-09-27 | EP1430972A1 | 2004-06-23 | HARADA, Shinichi c/o Asahi Glass Co., Ltd.; ARAI, Daikichi c/o Asahi Glass Co., Ltd.; MATSUI, Takayoshi c/o Matsui Wire Netting; DOI, Naoyuki c/o Matsui Wire Netting,Industry Co.,; OKINO, Naoki c/o Asahi Glass Machinery Co., Ltd.; ITO, Junya c/o Asahi Glass Co., Ltd.; TODA, Tsumoru c/o Asahi Glass Co., Ltd. |
A mesh for a wired glass inserted with a stainless steel mesh is provided. The mesh for a wired glass comprises stainless steel wires crossed one another, wherein the diameter of the wires is within a range of from 0.30 to 0.45 mm, and intersections of the wires are welded. The thickness of each intersection is preferably from 82 to 97% of the sum of diameters of two intercrossed wires at the intersection. Further, the wires preferably have an average linear expansion coefficient of at most 14×10-6/°C at a temperature of from 20 to 700°C and a tensile strength of at most 200 N/mm2 at 700°C. |
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