前苏联专利SU1590049A3 Rope and method of producing same

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专利摘要:
A cable comprises at least one layer of strands (10) with each strand covered with an individual sheath (20) of rubber or plastics material. The sheaths are so shaped (16, 17, 18) that the sheaths of adjacent strands interlock. This provides a layer in which the strands have a generally fixed spatial relationship both to each other and within the cable. This reduces inter-strand forces, so increasing cable life, and also provides a dimensionally stable cable.
公开号:SU1590049A3
申请号:SU833641765
申请日:1983-09-01
公开日:1990-08-30
发明作者:Мэйн Томсон Ян
申请人:Кейбл Белт Лимитед (Фирма)；
IPC主号:

专利说明:

The invention relates to the hardware industry, in particular to the production of coated ropes.
The purpose of the invention is to increase the service life of the rope.
FIG. 1 shows the rope core; in fig. 2 - extruder matrix for coating the core sheath, cross section; in fig. 3 - lived in the shell; in fig. 4 is a section A-A in FIG. 3; in fig. 5 - 7 - variants of the rope, the cross section.
The rope consists of several veins 1, covered with shells 2 and. twisted among themselves. Each strand 1 is formed of mutually twisted bundles 3, which can be made of metal wires or of yarn bundles of plastic fibers, for example, aromatic polyamide. The core 1 can also be made from a complex of steel wire with plastic fibers.
All of the strands 3 or some of them may be covered with plastic or rubber shells before twisting into the core to reduce friction and also improve the transfer of load between them.
The harnesses 3 to form conductor 1 can also be parallel to each other without twisting, i.e. beam
The formed core 1 is passed through an extruder die 4 (not shown) for coating. The following thermoplastic ME materials can be used individually or in a mixture as polyester material: polyester, polypropylene, polyether ketone, nylon, polyvinyl chloride, thermosetting or vulcanizing materials, polychloroprene, natural and synthetic rubbers, polyurethane.
(L
with
ate
se
Jib
09
S
Matrix 4 in transverse network. has a trapezoid-like shape with straight lateral sides 5 and arcuate bases 6 and 7. The core 1 passes through the hole of the matrix with gaps filled by the shell material. When the core passes through the matrix with a given linear velocity, the matrix
V
rotates at an angular velocity, ensuring the matching of the direction and pitch of the sheath of the core of the vein, similar to its parameters for piggyback (Fig. 3).
During extrusion, the material of the shell 2 penetrates between the harnesses 3 of the veins, ensuring the fixation of the elements between themselves and with the shell.
Before extrusion, the core 1 may be coated with a chemical binder j ,. material to increase adhesion between it and the shell. In addition, a lubricant can be applied to the core before extruding.
The resulting strands with sheaths of twist-25 are in the rope. The veins may be located in one, two or more layers, B (the presence of the central core of core 8 is possible,
Twisting the strands into a rope with a pitch, ... twisting, somewhat different from the sheath pitch of the sheath, as well as using twisting and unscrewing the strands during twisting, you can get a rope in which the internal stresses will contribute to the mutual fixation of the strands. It is also possible to perform heat treatment of the rope, in which the shells are welded to each other.
Shells of adjacent veins in a layer can
40 have a different shape, as shown in
FIG. 6, the cores 9 have shells 10 with a circular cross section, and the cores 11 between them have shells 12 with concave side surfaces 13 for accommodating shells 10. The outer surface 1A of shells 12 gives the rope a round shape.
Chamfers 15 or grooves 16 can be made on the surface of the shells to prevent the collection of water and dirt between the rope and, for example, the surface of the pulley.
The mutual friction of the side surfaces of the shells can be reduced by executing lubricant canisters 17 on them, displaced one relative to the other, to ensure limited removal of lubricant.
Additionally or alternatively, gaskets 18 of a material with a low coefficient of friction, such as polytetrafluorovinyl, can be installed between the side surfaces of the shells 2.
In the case of the presence of a core on its shell, protrusions can be made into the corresponding depressions on the contacting surfaces of the shells of the radial cores.
To reduce the rotation of the rope under load, adjacent strands in the layer or strands of adjacent layers are twisted in opposite directions,
In order to ensure the buoyancy of the rope in the shells, closed air cavities 19 are provided,
The production method of the rope shown in, for example, FIG. 6 is as follows.
Aromatic polyamide fibers in the form of bundles of yarn, including, for example, 1500 fibers, are twisted into bundles 3 containing from one to seven bundles of yarn. From the bundles 3, a core 1 is formed, containing 60–200 bundles by, for example, passing the bundles through an extruder 4 with simultaneous covering with sheath 2. The resulting cores are twisted into a rope that is covered with a common sheath
In the case of a shell made of thermosetting material, the workpiece is passed through a curing chamber.
The strength of the connection of the shell 20 with the shells 2 and the latter between them should be lower than the tensile strength of the material of the shell 2, which facilitates the merging of the ropes — and an easy separation of the cores.
It is advisable to choose the color of the outer shell 20 in contrast to the color of the shells 2 in order to quickly detect damage to the shell 20.
In order to increase the friction when sliding the rope on the pulley, it is necessary to groove the outer surface of the rope,
. The pressure acting on the core 8 depends on the stresses in the rope and can be controlled, for example, electrically. For this purpose, a synthetic conductor of a material whose current conductivity varies from
the rank of the pressure exerted on it. Electrically conducting wire may be introduced into the rope along its length in order to break if the rope is excessively long.
Applying the sheath 2 on the core 1 in a spiral is not the only possible solution. The shell may be applied to the core without twisting. In this case, after stranding the strands into a rope, it is subjected to thermal precipitation to fix the strand.

权利要求:
Claims (19)
[1]
1. A rope containing twisted at least one layer of the cores, each of which is covered with a plastic or rubber sheath, with at least some of the cores having a non-circular cross-section, and the non-circular shells are mutually fixed by their twisting in a spiral along the corresponding strands before winding, characterized in that, in order to increase the service life, the shells of the adjacent strands in the layer have different cross sections.
[2]
.2. A rope of claim 1, characterized in that the cores in the layer are made through one shell with a round section, and each intermediate core between them is made with a shell having two concave side surfaces for accommodating round shells.
[3]
3. Kanat on PP. 1 and 2, characterized in that the contacting surfaces of the adjacent shells have at least one lubricating groove.
[4]
4. Kanat popp. 1-3, characterized in that it is provided with inserts located between two side surfaces of adjacent shells.
[5]
5. The cable according to claim 4, characterized in that the inserts are made of polytetrafluoroethylene.
[6]
6.Kanat on PP. 1-5, characterized in that it is made of at least two core layers, the cores of each layer being provided with a common sheath.
[7]
7. Kanat on PP. 1-6, about t. L. - due to the fact that it is supplied
0
0 5
0
five
0
five
core covered with an individual shell of plastic or rubber.
[8]
8. Kanat popp. 1-7, characterized in that the material of each shell is located between the elements of the corresponding core twisted together, connecting the shell
with residential.
[9]
9. A cable according to claim 8, characterized in that each sheath is associated with an element of the corresponding core by means of a binding agent.
[10]
10. Cable on PP. 8 and 9, characterized in that each core is provided with a lubricant.
[11]
11. Kanat on PP. 8-10, characterized in that the core elements are made in the form of steel wires.
[12]
12. Kanat popp. 8-10, characterized in that the core elements are made in the form of yarn bundles of plastic fibers, for example an aromatic polyamide.
[13]
13. A cable as claimed in claim 11 or 12, characterized in that at least some shells have air cells.
[14]
14.Kanat on PP. 8-10, characterized in that the core elements are made in the form of a complex of steel wire with plastic fibers.
[15]
15. Kanat on PP. 1-14, characterized in that the cores of the adjacent layers of the suite with the opposite direction of the lay.
[16]
. 16. A method of making a rope, in which a plurality of strands are formed, covers at least some of them with individual shells of plastic or rubber, followed by twisting the lived together with the shells into a rope, while the sheaths of the rope are mutually fixed in a layer, characterized in that in order to increase the service life of the rope, at least part of the shells, when coated, Q gives a non-circular cross-section along a spiral along the corresponding core.
[17]
17. The method according to claim 16, about tl and h ayi y and so that the shell is applied by extruding it around each core.
[18]
18. The method according to claim 16, characterized in that the conductors are twisted
7.1590049
equal to the step; nHpajm
in the rope with braid spacing.
[19]
19. The method according to paragraphs. 16 the temperature of the spiral braid is made;
- 18, about t - that formiro8
by rotating the extruding matrix around the moving core.
Priority to points:
06/02/83 on PP. 1-17;
09/01/82 in paragraphs 18-19.
Phage.1
Fig.Z
FIG. 2
Fy
Phage. 6
nineteen
Le-is
sixteen
FIG. five
TO
20
fk2.7

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同族专利:

公开号 | 公开日

NO168190C|1992-01-22|

CA1201495A|1986-03-04|

SE8304710D0|1983-08-31|

AU1858883A|1984-03-08|

NO833127L|1984-03-02|

LU84984A1|1985-06-04|

NL8303026A|1984-04-02|

SE458369B|1989-03-20|

BR8304722A|1984-04-10|

PL140925B1|1987-06-30|

PL243597A1|1984-05-07|

FR2532342B1|1986-12-05|

NL191065B|1994-08-01|

SE8304710L|1984-03-02|

GB2126613B|1986-10-29|

FR2532342A1|1984-03-02|

MX153995A|1987-03-18|

AU561279B2|1987-05-07|

NO168190B|1991-10-14|

GB8323304D0|1983-10-05|

GB2126613A|1984-03-28|

US4550559A|1985-11-05|

NL191065C|1995-01-02|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US1393750A|1920-02-28|1921-10-18|Hilton P M Carter|Sector-cable|

US2587521A|1945-06-23|1952-02-26|Thomas F Peterson|Cable reinforcing and supporting device|

US2509894A|1948-03-22|1950-05-30|Ind Metal Protectives Inc|Wire rope and process of manufacturing same|

FR1124245A|1955-04-01|1956-10-08|Pour Le Dev Des Emplois De L E|Insulated electrical conductor|

FR1225120A|1959-02-19|1960-06-29|Patent & Verwaltungs A G|Plastic clothesline|

GB878844A|1959-05-06|1961-10-04|Pirelli|Improvements in or relating to submarine armoured electric cables|

FR1377404A|1963-09-11|1964-11-06|Thomson Houston Comp Francaise|Improvements to multicore cables|

US3371476A|1965-04-02|1968-03-05|Gen Motors Corp|Glass plastic rope|

US3307343A|1965-05-27|1967-03-07|American Chain & Cable Co|Corrosion resistant wire rope|

US3411182A|1966-09-28|1968-11-19|Phelps Dodge Copper Prod|Apparatus for extruding helical webs on conductors|

US3526086A|1968-04-12|1970-09-01|North American Rockwell|Multiconduit underwater line|

US3911785A|1974-01-18|1975-10-14|Wall Ind Inc|Parallel yarn rope|

US3973385A|1975-05-05|1976-08-10|Consolidated Products Corporation|Electromechanical cable|

US4059951A|1975-05-05|1977-11-29|Consolidated Products Corporation|Composite strain member for use in electromechanical cable|

FR2360965B1|1976-08-05|1978-12-15|Cables De Lyon Geoffroy Delore|

FR2446495B1|1979-01-15|1982-05-28|Cordons Equip|

JPS6059568B2|1980-09-24|1985-12-25|Nippon Denshin Denwa Kosha|

FR2549235A1|1983-06-21|1985-01-18|Cables De Lyon Geoffroy Delore|Structures for cables comprising optical fibres or a fibre-optic bundle, and cables provided with such structures.|CH679844A5|1989-07-19|1992-04-30|Emil Kuehne|

GB9416331D0|1994-08-12|1994-10-05|Amp Gmbh|Stranded electrical wire for use with IDC|

US5669214A|1994-10-11|1997-09-23|Fatzer Ag|Stranded wire rope or cable having multiple stranded rope elements, strand separation insert therefor and method of manufacture of the wire rope or cable|

US5881843A|1996-10-15|1999-03-16|Otis Elevator Company|Synthetic non-metallic rope for an elevator|

SG78407A1|1999-01-22|2001-02-20|Inventio Ag|Sheathed synthetic fiber rope|

US6295799B1|1999-09-27|2001-10-02|Otis Elevator Company|Tension member for an elevator|

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WO2002016249A1|2000-08-24|2002-02-28|Mitsubishi Denki Kabushiki Kaisha|Synthetic fiber rope for elevators|

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US7032371B2|2002-01-30|2006-04-25|Thyssen Elevator Capital Corp.|Synthetic fiber rope for an elevator|

US20060213175A1|2002-01-30|2006-09-28|Smith Rory S|Synthetic fiber rope for an elevator|

PT1418595E|2003-03-28|2010-07-19|Grupo General Cable Sist S S A|Metallic conductor and process of manufacturing same|

KR20060056935A|2003-07-11|2006-05-25|팬듀트 코포레이션|Alien crosstalk suppression with enhanced patch cord|

US7157644B2|2004-12-16|2007-01-02|General Cable Technology Corporation|Reduced alien crosstalk electrical cable with filler element|

US7238885B2|2004-12-16|2007-07-03|Panduit Corp.|Reduced alien crosstalk electrical cable with filler element|

US7064277B1|2004-12-16|2006-06-20|General Cable Technology Corporation|Reduced alien crosstalk electrical cable|

US7317163B2|2004-12-16|2008-01-08|General Cable Technology Corp.|Reduced alien crosstalk electrical cable with filler element|

CN100354471C|2005-01-25|2007-12-12|江苏法尔胜新日制铁缆索有限公司|Supehigh strength parallel steel wire durable cables|

WO2008138161A1|2007-05-16|2008-11-20|Brugg Kabel Ag|Method for the production of a flexible line|

EP2356054B1|2008-11-14|2014-04-02|Otis Elevator Company|Elevator belt and corresponding method of making the same|

US20100218973A1|2009-01-30|2010-09-02|Camp Ii David P|Separator for communication cable with geometric features|

US8319104B2|2009-02-11|2012-11-27|General Cable Technologies Corporation|Separator for communication cable with shaped ends|

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US10354777B2|2017-09-21|2019-07-16|Schlumberger Technology Corporation|Electrical conductors and processes for making and using same|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

GB8224956|1982-09-01|

GB838315181A|GB8315181D0|1983-06-02|1983-06-02|Cables|

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