CN1409439A - Crimped casing for electric transmission and distribution wire - Google Patents
Crimped casing for electric transmission and distribution wire Download PDFInfo
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- CN1409439A CN1409439A CN 01141910 CN01141910A CN1409439A CN 1409439 A CN1409439 A CN 1409439A CN 01141910 CN01141910 CN 01141910 CN 01141910 A CN01141910 A CN 01141910A CN 1409439 A CN1409439 A CN 1409439A
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Abstract
This invention discloses a crimp connection for casing tube or crimped lock for wire used in power transmission and distribution line composed of a columnary matrix, the section of which exhibits C shape, two lineal furrows are set at both ends point distributed locking reentrants/humps or continuous or discontinuous locking furrows or locking ribs are set up on the surfaces of inner/output surfaces of the matrix and the furrows to stitch the crimped lock with wires due to the above-mentioned crimped lock structure, increasing its pulling force, reducing its connection adapted resistance and temperature rising.
Description
Technical field
The present invention relates to a kind of electric armour clamp, more particularly, relate to a kind of crimping sleeve that the high-low voltage transmission-distribution line road is used that is mainly used in, be a kind of can with the crimping sleeve of the C font of conductor compression jointing all-in-one-piece copper, aluminium or other metal material.
Background technology
Crimping sleeve is commonly called as " wire clamp ", is a kind of electric armour clamp commonly used, divides " tension-type wire clamp " and " non-tension-type wire clamp " two classes, and " non-tension-type wire clamp " is divided into " bolt lock type " again and presses " crimp type " two kinds.
Domestic a large amount of uses at present be " parallel groove clamp " of " bolt lock type ", this kind wire clamp is two ducts of processing and two or more bolt hole on thick aluminium flat board, again with two pairs of ditch aluminium flakes of two or more bolt lockings, to finish continuing of lead and lead, the contact area of wire clamp and lead is little, and contact resistance is bigger, temperature rise is higher, the electric property instability is so continuing of everywhere lead and lead needs to use two " parallel groove clamp ".
Because electric power can't store, for electric power can effectively be used, and the society need for electricity is ardent, " power failure operation " will cause the loss of the energy and to the inconvenience of bringing of society life, and " live line working " is trend and the irresistible trend got rid of of electric utility line construction and accident from now on.
When " live line working ",, whenever have only the bolt more than two or two need use " wrench " instrument lock nut because of each place of continuing of parallel groove clamp needs to use two, constructional difficulties degree height, the constructor is easier to take place electric shock accidents.
At the present crimp type C shape wire clamp that uses of the U.S. and Taiwan, its structure is the column that the cross section is the C word shape, and the surfaces externally and internally of wire clamp is a smooth surface.When this wire clamp used in " live line working ", because of each place of continuing only uses one, though " bolt lock type " wire clamp is low for its cost, and so that " hydraulic tongs " instrument crimping of insulated handle to be arranged, it was simple and easy to construct, and the constructor electric shock accidents can not take place.But C shape crimping sleeve or jointing clamp that the Taiwan Ju Ze company and the U.S. produce now all are U.S.'s specifications, and at home and abroad market is rather popular, and structurally also there is following shortcoming in this wire clamp:
01. existing C shape jointing clamp, U.S. rule are copper 12 kinds of specifications, aluminium matter 14 kinds of specifications are arranged, respectively its suitable lead is converted into metric system sectional area (mm
2) just can find to be not suitable for fully Chinese metric system lead use, detailed as following:
(1) U.S. rule C shape copper jointing clamp:
A ditch B ditch
12SoL-10Str????????12SoL-10Str
8SoL-8Str??????????10SoL-8Str
6SoL-4Str??????????8SoL-8Str
6SoL-4Str??????????6SoL-6Str
6SoL-4Str??????????4SoL-4Str
2SoL-2Str??????????8SoL-4Str
2SoL-2Str??????????2SoL-2Str
1/0Str-2/0Str??????8SoL-2Str
1/0Str-2/0Str??????1/0Str-2/0Str
3/0Str-4/0Str??????6SoL-2Str
3/0Str-4/0Str??????1/0Str-2/0Str
3/0Str-4/0Str??????3/0Str-4/0Str
(2) conversion (1) is metric system sectional area of wire (mm
2): round up below the decimal point.
A ditch B ditch 01. 3-5 3-502. 8-8 5-803. 13-21 8-804. 13-21 13-1305. 13-21 21-2106. 34-33 8-2107. 34-33 34-3308. 53-66 8-3309. 53-66 53-6610. 84-106 13-3311. 84-106 53-6612. 84-106 84-106
(3) U.S. rule C shape aluminium jointing clamp:
A ditch B ditch
6SoL-4Str????????????6SoL-6Str
6SoL-4Str????????????6SoL-4Str
2SoL-2ACSR???????????4SoL-4Str
2SoL-2ACSR????????2SoL-2ACSR
1/0Str-ACSR???????6Str-4ACSR
1/0Str-ACSR???????2SoL-4ACSR
1/0Str-2/0Str?????1/0Str-2/0Str
1/0Str-2/0ACSR????1/0Str-ACSR
1/0Str-2/0ACSR????2/0Str-ACSR
3/0Str-4/0ACSR????6SoL-2ACSR
3/0Str-4/0ACSR????1/0Str-ACSR
3/0Str-4/0ACSR????2/0Str-ACSR
3/0Str-4/0ACSR????3/0Str-4/0ACSR
(3) are metric system sectional area of wire (mm 300-397.5 2Str-2/0Str (4) converts
2): round up below the decimal point.
A ditch B ditch A ditch B ditch 01. 13-21 13-13 08. 53-68 53-5402. 13-21 21-21 09. 53-68 66-6803. 34-34 21-21 10. 84-107 13-3404. 34-34 34-34 11. 84-107 53-5405. 53-54 13-21 12. 84-107 66-6806. 53-54 34-34 13. 84-107 84-10707. 53-66 53-66 14. 149-198 33-66 (5) are fit to Chinese metric system sectional area of wire (mm2) C shape copper, aluminium jointing clamp as follows:
A ditch B ditch A ditch B ditch 01. 16-35 16-35 09. 150-185 95-12002. 50-70 16-35 10. 150-185 150-18503. 50-70 50-70 11. 210-240 16-3504. 95-120 16-35 12. 210-240 50-7005. 95-120 50-70 13. 210-240 95-12006. 95-120 95-120 14. 210-240 150-18507. 150-185 16-35 15. 210-240 210-24008. 150-185 50-70
(6) according to the NEMA standard, its pulling force standard of jointing clamp (non-tension-type) is as follows:
A.6-1/0AWG:13-54mm
2136 kilograms
B.2/0-4/0AWG:67-107mm
2227 kilograms
C.250-500MCM:127-253mm
2454 kilograms
D.500MCM more than: 253mm
2More than 907 kilograms
02. existing U.S. rule C shape copper, aluminium jointing clamp, the maximum lead that is suitable for is equivalent to 84-107,84-107mm
2, above the wire clamp of this specification, the pulling force after it continues can not reach 454 kilograms of standard values.In order to improve the tensile strength after the crimping, the wire clamp of aluminium matter is the resistance to tension after the length by the lengthening wire clamp improves it and continues, but because the increase of length causes the increase of crimping number of times, thereby be difficult to guarantee the linearity and the cylindricity of wire clamp outline after the crimping, and then cause the decline of the quality that continues.Use and also be not suitable for Chinese metric system lead, at present C shape copper, the aluminium jointing clamp that does not also design at Chinese metric system lead with U.S.'s specification.
03. existing C shape copper, aluminium jointing clamp, same specification, the little line of crimping footpath are to little line footpath lead, and wire clamp needs the degree of bending bigger to big line footpath lead than the big line of crimping footpath, thereby the duct space can't effectively closely fill up, and pulling force, resistance, temperature rise that causes wire clamp etc. is difficult to meet international standard.Referring to table one and table three, be the pull test of existing U.S. rule C molded lines folder in the table, the wire clamp of specifications is after the little line of crimping footpath is to little line footpath lead as can be seen, and its value of thrust generally can not reach standard value, and when the lead of the big line of crimping footpath, just can reach standard value.If pulling force can not reach standard, its crimping leakiness, then resistance and temperature rise meeting can not reach standard equally.
04. existing C shape copper, aluminium jointing clamp because of can't effectively closely filling up the duct space after the crimping, and then cause that pulling force is little, resistance big, temperature rise, cause easily that the folder inside conductor gets loose, the wire clamp scaling loss, cause the feeder line fault accident.
05. existing C shape copper, aluminium jointing clamp can't effectively closely be filled up because of duct space after the crimping, cause aqueous vapor or dust to enter the duct space, can produce the corrosion of wire clamp and lead, cause power circuit generation broken string accident.
06. existing C shape copper, aluminium jointing clamp, when inserting conductor compression jointing, the afterbody of matrix two ends duct, can't effectively fit tightly along lead, and be lead profile lining, and cause that the duct and the lead of wire clamp entity presents pancake after the crimping, do not meet wire clamp crimping requirement.
07. existing C shape copper, aluminium jointing clamp, according to the above, duct and the lead of wire clamp crimping entity are pancake, and lead more easily gets loose, and the diffusion of the line thigh of lead, reduce protective layer, corrode easily and break generation feeder line fault accident.
08. existing U.S. rule C shape copper, aluminium jointing clamp, according to the above, wire clamp crimping entity, the bottleneck of pulling force requirement standard is difficult to be broken through.Its maximum crimping lead only is equivalent to 107 couples of 107mm
2, its pulling force after continuing of wire clamp that surpasses this specification can not reach 454 kilograms of standard values; So, have inconvenience for continuing of copper, the big line of aluminum conductor footpath.
09. existing U.S. rule C shape aluminium jointing clamp, the big line of crimping footpath be to the specification in big line footpath, its length is long, crimping often, the wire clamp entity after the crimping presents curved shape, do not meet wire clamp crimping requirement.
10. existing U.S. rule C shape aluminium jointing clamp; in order to improve the resistance to tension of wire clamp; length by the lengthening wire clamp realizes; therefore the crimping number of times increases; the problem of bringing thus is that the wire clamp entity after the crimping is curved shape; when power circuit " live line working "; its " safe insulation rubber tube of the closed shape of opening "; can't penetrate lining; if penetrate reluctantly; crooked live part can expose outside the pipe, forms the potential work safety crisis that electric shock accidents takes place for " live line working " difficulty and live line working person.
11. existing C shape aluminium jointing clamp, wire clamp entity after the crimping presents curved shape, when angle of bend is big, cause is the temperature difference and spike off peak load day and night, cause and expand with heat and contract with cold, long-pending month tired wire clamp of order can cause the lead that continues to get loose or break in the knee fracture, produces the power circuit power outage, and loss and reduce the power supply income increases electric power.
12. existing C shape copper, aluminium jointing clamp, duct and lead are pancake after the wire clamp crimping, the lead that produces gets loose, corrosion, broken string, the feeder line fault that causes, can cause " owing to turn round mutually ", scaling loss user's facility cause damage for user or Utilities Electric Co., and cause the reparations dispute between user and the Utilities Electric Co..
The content of invention
The purpose of this invention is to provide the crimping sleeve that a kind of transmission and distribution line that can overcome above-mentioned shortcoming is used, mat changes the surface configuration and the structure of matrix and duct, with the compression that reduces the wire clamp inner surface with make the packing of crimping better, pulling force is bigger, resistance and temperature rise are littler, thereby the wire clamp of same specification is used in bigger lead scope, and use the design of metric system wire gauge to produce at China.
For achieving the above object, the present invention adopts technical scheme to be: the crimping sleeve that a kind of transmission and distribution line is used, this sleeve pipe is made of the columnar shape basal that the cross section is the C font, the hook portion of the semicircle arcuation of the C font upper/lower terminal of matrix surrounds two ducts that contact with electric wire, and described two ducts are the through hole shape; Wherein, on the surfaces externally and internally of matrix, be provided be randomly spot distribution, inwardly recessed locking depression or/and be provided be randomly spot distribution, outside outstanding lock projection.
Described locking depression is 1-25/cm
2Distribute, described lock projection is 1-25/cm
2Distribute.
Described locking depression is the linearity parallel with the length direction of matrix or is with uneven linearity of the length direction of matrix or zigzag shape and distributes discontinuously, constitutes the locking ditch that at least one vertically is the linearity that inwardly concaves, oblique line shape or the zigzag shape of interruption state; Described lock projection is the linearity parallel with the length direction of matrix or is with uneven linearity of the length direction of matrix or zigzag shape and distributes discontinuously, constitutes the locking rod of at least one linearity to outer process that vertically is the interruption state, oblique line shape or zigzag shape.
Described locking depression is the linearity parallel with the length direction of matrix or is with uneven linearity of the length direction of matrix or zigzag shape and distributes continuously, constitutes the locking ditch that at least one vertically is the linearity that inwardly concaves, oblique line shape or the zigzag shape of continuous state; Described lock projection is the linearity parallel with the length direction of matrix or is with uneven linearity of the length direction of matrix or zigzag shape and distributes continuously, constitutes the locking rod of at least one linearity to outer process that vertically is continuous state, oblique line shape or zigzag shape.
Being shaped as of described locking depression is hemispherical, semi-cylindrical, prism-shaped or square column a kind of; Being shaped as of described lock projection is hemispherical, semi-cylindrical, prism-shaped or square column a kind of.
The present invention also can adopt another kind of technical scheme: the crimping sleeve that a kind of transmission and distribution line is used, this sleeve pipe is made of the columnar shape basal that the cross section is the C font, the hook portion of the semicircle arcuation of the C font upper/lower terminal of matrix surrounds two ducts that contact with electric wire, and described two ducts are the through hole shape; Wherein, on the inside and outside surface of matrix, it is excellent or/and a locking ditch that inwardly concaves to be provided with the locking to outer process at least.
Described locking rod be semi-cylindrical, prism-shaped or square column a kind of to outer process, and should to lock rod be linearity or the uneven oblique line shape parallel with the length direction of matrix or be along the length direction of matrix wire a kind of in the shape of a spiral; Described locking ditch is the ditch shape that inwardly concaves, its cross section is semicircle, arc, V font, quadrangle or polygonal a kind of, and this locking ditch be linearity parallel with the length direction of matrix or uneven oblique line shape or is along the length direction of matrix wire a kind of in the shape of a spiral.
When described locking rod was a plurality of, the cross section size at its place, maximum cross-section was identical or different; When described locking ditch was a plurality of, the cross section size at its place, maximum cross-section was identical or different.
The internal diameter of two ducts of the through hole shape of described C font is identical, or duct diameter is greater than the diameter of another duct.
Described sleeve pipe is a kind of in aluminium, copper, copper alloy, the aluminium alloy.
Owing to adopt such scheme; The inside and outside surface of the matrix of crimping sleeve and duct is provided with the locking depression or/and lock projection; Perhaps, the matrix of crimping sleeve and the surfaces externally and internally of duct are provided with at least one locking rod or/and a locking ditch, when its role is to make lead to insert the duct crimping, help the compression of duct inner surface and the stretching of outer surface, make the afterbody of matrix two ends duct be easy to curl, can effectively fit tightly and be the lead profile and be covered along lead, bending is involved in the middle of the matrix again, the duct and the lead of wire clamp entity all are sub-circular after the control crimping, make lead line thigh be original shape proper alignment, and unlikely being crushed or broken lot.It not only is better than traditional " parallel groove clamp " greatly, and C shape copper, the aluminium crimping sleeve that existing transmission and distribution line used all had tangible advantage, and its concrete beneficial effect is as follows:
1. the C shape copper used of this transmission and distribution line, the aluminium crimping sleeve, interior lateral surface at matrix and duct is provided with the locking depression or/and lock projection, perhaps be provided with the locking rod or/and the locking ditch, stress equilibrium and interlocking are arranged, locking ditch or locking depression help reducing the tension stress on duct surface during crimping, the interlock of compression and inner surface and lead, locking rod or lock projection help improving the intensity of duct outer surface and the interlock of inner surface and lead, therefore, can make duct effectively fit tightly and be the lead profile along lead is covered, bending is involved in the middle of the matrix again, the duct and the lead of wire clamp entity all are sub-circular after the control crimping, make lead line thigh be the original form proper alignment, and shape linearly behind wire clip body and the crimping conductor compression jointing.
2. the crimping sleeve used of this transmission and distribution line, because above-mentioned design makes same specification jointing clamp, no matter crimping maximum is to maximum, still the crimping minimum to minimum line directly all can fit tightly the equal tight of duct.
3. the crimping sleeve used of this transmission and distribution line, because of the locking depression being arranged or/and the setting of lock projection, the locking rod is perhaps arranged or/and the setting of locking ditch, wire clamp is inserted the entity behind the conductor compression jointing, the equal tight of duct, can avoid aqueous vapor and dust to enter duct, lead and wire clamp can not get loose, burn into broken string, the power circuit accident that can not break down.
4. the crimping sleeve used of transmission and distribution line, because of the locking depression being arranged or/and the design of lock projection, the locking rod is perhaps arranged or/and the design setting of locking ditch, lead is inserted the entity after the wire clamp crimping, the equal zero-clearance of duct, lead and duct all are sub-circular, can guarantee linearity behind wire clamp and the crimping conductor compression jointing, therefore the pulling force of wire clamp is big, resistance is little, temperature rise is low, meets international standard fully.
5. the crimping sleeve used of this transmission and distribution line; because of the locking depression being arranged or/and the design of lock projection; the design setting of locking rod or locking ditch is perhaps arranged; entity after the wire clamp crimping, the equal tight of duct, lead is sub-circular; lead has sufficient protection; can not get loose, break by burn into, just feeder line fault can not take place, guarantee the power supply reliable quality.
6. the crimping sleeve used of this transmission and distribution line, because of the locking depression is arranged or/and the setting of lock projection perhaps has the locking rod or/and the design setting of locking ditch, after no matter long or short wire clamp is inserted conductor compression jointing, wire clamp and lead be shape linearly all, can flexural deformation, meet wire clamp crimping requirement.
7. the crimping sleeve used of this transmission and distribution line; because of the locking depression being arranged or/and the design setting of lock projection; the locking rod is perhaps arranged or/and the design setting of locking ditch; can flexural deformation after the wire clamp crimping; when power circuit " live line working "; unique " the safe insulation rubber tube of opening closo " penetrates lining easily, and no energized conductor exposes outside the pipe, solves the potential work safety crisis of " live line working " constructional difficulties and operator generation electric shock accidents.
8. the crimping sleeve used of this transmission and distribution line, because of the locking depression being arranged or/and the design setting of lock projection, the locking rod is perhaps arranged or/and the design setting of locking ditch, can flexural deformation after the wire clamp crimping, just there are not the day and night temperature difference, spike off peak load, because of expanding with heat and contract with cold, accumulating over a long period causes the wire clamp broken string, and lead gets loose, the feeder line fault problem of burn into broken string.
9. the crimping sleeve used of this transmission and distribution line is at Chinese metric system copper and aluminum conductor, use copper and aluminum, can design production and be applicable to Chinese metric system copper and aluminum conductor crimping wire clamp, the U.S. rule of solution C shape copper, aluminium jointing clamp are not suitable for the problem that Chinese metric system uses.
10. the crimping sleeve used of this transmission and distribution line because of the design setting of locking rod or locking ditch is arranged, at Chinese metric system copper and aluminum conductor, can design and produce following specification C shape copper, aluminium jointing clamp, satisfies the demand of present Chinese electric line conductor compression jointing fully.
A ditch B ditch A ditch B ditch (1) 16-35,16-35mm
2(17) 300-400,95-120mm
2(2) 50-70,16-35mm
2(18) 300-400,150-185mm
2(3) 50-70,50-70mm
2(19) 300-400,210-240mm
2(4) 95-120,16-35mm
2(20) 300-400,300-400mm
2(5) 95-120,50-70mm
2(21) 500-630,50-70mm
2(6) 95-120,95-120mm
2(22) 500-630,95-120mm
2(7) 150-185,16-35mm
2(23) 500-630,150-185mm
2(8) 150-185,50-70mm
2(24) 500-630,210-240mm
2(9) 150-180,95-120mm
2(25) 500-630,300-400mm
2(10) 150-185,150-185mm
2(26) 500-630,500-630mm
2(11) 210-240,16-35, mm
2(27) 800-1000,95-120mm
2(12) 210-240,50-70mm
2(28) 800-1000,150-185mm
2(13) 210-240,95-120mm
2(29) 800-1000,210-240mm
2(14) 210-240,150-185mm
2(30) 800-1000,300-400mm
2(15) 210-240,210-240mm
2(31) 800-1000,500-630mm
2(16) 300-400,50-70mm
2(32) 800-1000,800-1000mm
2
11. the crimping sleeve that this transmission and distribution line is used, because of the locking depression being arranged or/and the design setting of lock projection, and the locking rod is arranged or/and tightly lock the design setting of ditch, its key is to place the locking cave of wire clamp or/and lock projection, or the locking rod is or/and the locking ditch has stress equilibrium and interlocking after inserting conductor compression jointing, therefore, wire clamp and lead can fit tightly, the pulling force that wire clamp after the crimping can bear increases, rule rule of thumb: pulling force is big, temperature rise, resistance can reduce, thereby reach the Expected Results that resistance is little, temperature rise is low.Do not have the design setting of locking rod and locking ditch, maximum to the max line footpath, pulling force can conformance with standard, maximum to maximum with the footpath of rolling off the production line, value of thrust is unreliable, minimum to the minimum line footpath, general difficulty meets the pulling force standard.Through result of the test, wire clamp has locking excellent or/and the design of locking ditch is provided with, and its pulling force is not on average locked rod or/and the design setting of locking ditch greater than having: 1) maximum max line has directly been improved more than 1/4 do not waited; 2) maximum directly following raising does not wait more than 1/3 to max line, and the more little tensile strength in line footpath improves big more.
12. referring to table two and table four, for C shape copper of the present invention, aluminium jointing clamp are set up pull test parameter behind locking rod and the locking ditch, from test data as can be seen for the wire clamp of same specification no matter be big line footpath to big line footpath, big line footpath to little line footpath, or little line directly all can reach and be higher than the standard value of pulling force to the pulling force behind the conductor compression jointing in little line footpath, and there is not same specification, the little line of crimping is directly to behind the lead of little line footpath, can't effectively closely fill up because of the duct space, pulling force, resistance, temperature rise that causes wire clamp etc. is difficult to meet international standard.Wire clamp after the crimping and lead be shape linearly, can flexural deformation, meet wire clamp crimping requirement.
13. C shape copper of the present invention, aluminium or other metal material jointing clamp developer, be engaged in electric utility work all one's life the practice working experience of producing C shape copper, aluminium jointing clamp for many years again.Novel C shape copper, aluminium jointing clamp are through the qualification test result, and pulling force, resistance, temperature condition all are better than U.S. rule C shape copper, aluminium jointing clamp.For continuing of lead have construction simple and easy, durable in use, small and exquisite pragmatic, save resource, energy savings, raising job security, reduce line accident and line loss, enhancing power supply reliability, increase the multiple advantage and the benefit of power supply income.
14. the jointing clamp of this C shape copper, aluminium or other metal material, because of the locking depression being arranged or/and the design of lock projection, the locking rod is perhaps arranged or/and the design setting of locking ditch, remove and use on the high-low voltage transmission-distribution line road, can prevent outside the feeder line fault accident, be used in indoor circuit and more can avoid causing the disaster of fire or the line of entering house to drop, common people's electric shock accidents takes place because of the joint generation spark that gets loose.
15. the jointing clamp of this C shape copper, aluminium or other metal material compares with tradition " parallel groove clamp ", and following obvious advantage is arranged:
(0l) the every place lead place that continues, wire clamp needn't use two, only needs to use one, can save national resources over half.
(02) wire clamp is in light weight, and pulling force, resistance, temperature condition are good, can save national resources.
(03) can prevent the electric power line failure power outage, reduce the loss of supply.
(04) crimping is quick, favourable feeder line fault repairing, power supply ahead of time.Lower " power outage " society's injury of causing, especially traffic signals, smelting furnace and high-tech industry are the most serious.
(05) wire clamp is simple in structure and be integrally formed, and " producing quality " guarantees, can expect.
(06) wire clamp uses crimping tool crimping " crimping quality " to guarantee, can expect.
(07) " live line working " to wear insulated tube easy, hot line clamp can not expose, and can avoid electric shock accidents.
(08) lead that fully is covered of the wire clamp after the crimping, lead can not corrode, and power supply reliability is good.
(09) duct of aluminum steel folder scribbles anti-oxygen protection oil, has anti-oxygen concurrently and strengthens conducting function.
(10) easy to carry, can alleviate workmen's load, increase work capacity.
In sum, of the present invention the crimping sleeve that transmission and distribution line is used, its C shape copper, the aluminium jointing clamp, via the locking depression, lock projection, the locking rod, the setting of locking ditch, the compression of matrix inner surface and the tension stress of outer surface have been reduced, and be integrally formed, continuing as lead and lead is to use " Press Plier " instrument, wire clamp and lead are pressed into one, because of wire clamp and the whole closely pressing of lead, adapting electric voltage is little, temperature rise is low, electric property is extremely stable, so continuing of everywhere lead and lead only need be used one, and construction fast, the quality that continues is good, meets the international standard level fully, plays the effect of continuing of high-quality lead.
Description of drawings
Fig. 1 is the stereogram of the embodiment one of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Fig. 2 is the stereogram of the embodiment two of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Fig. 3 A-3D is stereogram, the front view of the embodiment three of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Fig. 4 A-4B is the front view of the embodiment four of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Fig. 5 A-5B is the front view of the embodiment five of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Fig. 6 A-6B is the front view of the embodiment six of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Fig. 7 A-7B is the front view of the embodiment seven of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Fig. 8 A-8B is the front view of the embodiment eight of the crimping sleeve used of C shape of the present invention electric wire under unified central planning;
Fig. 9 A-9B is the front view of the embodiment nine of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Figure 10 A-10B is the front view of the embodiment ten of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Figure 11 A-11B is the front view of the embodiment 11 of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Figure 12 A-12B is the front view of the embodiment 12 of the crimping sleeve used of C shape transmission and distribution line of the present invention;
Embodiment-, as shown in Figure 1, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, the two ends of matrix 1 are two ducts 2,2 ' that contact with electric wire, described two ducts 2,2 ' 12,13 of hook portions by two semicircular arcuations up and down of C font surround, and the duct 2,2 ' at described two ends is the through hole shape.On the inner surface of matrix 1, be respectively equipped with the lock projection 7 that is spot distribution randomly, on the outer surface of matrix 1, be respectively equipped with the locking depression 6 of spot distribution randomly, lock projection 7 be shaped as approximate hemisphere; It is cave-shaped to lock the approximate hemisphere of being shaped as of depression 6; Described locking depression 6 is 5/cm
2Distribute, described lock projection 7 is 5/cm
2Distribute.
Because inner surface is provided with lock projection 7, outer surface is provided with locking depression 6, during crimping, the locking depression helps reducing the tension stress of wire clamp outer surface, and lock projection helps reducing the compression of wire clamp inner surface, improve the interlocking of wire clamp inner surface and lead, pocket recess can be extended ahead of time, helps wire clamp hook portion tail end to curl and the applying lead, helps the driving fit with conductor compression jointing, can make wire clamp effectively be line footpath shape lining lead, wire clamp is near cylindrical.
Embodiment two, and as shown in Figure 2, a present embodiment and a last embodiment difference are; Described lock projection 7 is located at the outer surface of matrix 1, and locking depression 6 is established the inner surface of matrix 1.Crimping is initial, and the pocket recess of inner surface can be done sth. in advance driving fit, helps improving wire clamp inner surface compression, helps the bending of wire clamp hook portion; The lock projection of outer surface improves intensity, helps wire clamp hook portion tail end applying lead, helps the driving fit with conductor compression jointing, can make wire clamp effectively be line footpath shape lining lead, and wire clamp is near cylindrical.When lock projection and locking depression were spot distribution, its depression and projection had equal effect.
Embodiment three, shown in Fig. 3 A, 3B, 3C, 3D, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, the both ends of matrix 1 are two ducts 2,2 ' that contact with lead, described two ducts 2,2 ' 12,13 of hook portions by two semi arches up and down of C font surround, and this duct 2,2 ' is the through hole shape; On the surface of matrix, also be provided with 4 and locking ditches 5 of a locking rod.
As shown in Figure 3A, this locking rod 4 is shaped as the semi-cylindrical that is parallel to wire clamp length; The straight trough shape that being shaped as of this locking ditch 5 be that the cross section is in the shape of the letter V, be parallel to the wire clamp length direction; Locking rod 4 is located at the place, summit of the outer surface of the hook portion 13 that surrounds duct 2 ', and locking ditch 5 is located at the place, summit of the inner surface of hook portion 12.
Shown in Fig. 3 B, this locking rod 4 be shaped as the cross section be approximate half-circular, with the uneven column of wire clamp matrix length direction, the side projection of this column locking rod is and the uneven oblique line shape of matrix length direction; This locking ditch 5 be shaped as cross section be approximate V font, with the uneven groove shape of wire clamp length direction, the side projection of this locking ditch is and the uneven oblique line shape of matrix length direction.Locking ditch 5 is located at the summit place of inner surface of the semicircle hook of hook portion 13, and locking rod 4 is located at the place, summit of outer surface of the semicircle hook of hook portion 12.
Shown in Fig. 3 C, be with Fig. 3 A difference: locking ditch 5 is located at the place, summit of the inner surface of hook portion 13, and locking rod 4 is located at the place, summit of the inner surface of hook portion 12.
Shown in Fig. 3 D, be with Fig. 3 B difference: locking rod 4 is located at the place, summit of inner surface of the semicircle hook of hook portion 13, and locking ditch 5 is located at the place, summit of inner surface of the semicircle hook of hook portion 12.
Locking ditch and locking rod are set, during crimping, because the setting of locking rod and locking ditch on duct, help curling and wire clamp hook portion tail end applying lead of wire clamp hook portion, help the driving fit with conductor compression jointing, can make wire clamp effectively be line footpath shape lining lead, wire clamp is near cylindrical.
Embodiment four, shown in Fig. 4 A, 4B, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, at the two ends of matrix 1 is two ducts 2,2 ' that contact with electric wire, described two ducts 2,2 ' 12,13 of hook portions by two semicircle arcuations up and down of C font surround, and the duct 2,2 ' at described two ends is the through hole shape, also are provided with two locking rods 4 on the surface of wire clamp matrix 1.
Shown in Fig. 4 A, described locking rod 4 is located on the summit of outer surface of two hook portions 12,13, this locking rod 4 is made of the lock projection 7 of the interruption of the linearly arrangement of folder length direction along the line, the semi-cylindrical of the direction that is shaped as folder length along the line of lock projection 7 constitutes the semi-cylindrical of locking rod 4 for the linearity parallel with the wire clamp length direction of interruption.
Shown in Fig. 4 B, be with the described difference of Fig. 4 A: described locking rod 4 is located on the summit of inner surface of two hook portions 12,13.
The locking rod is located on the outer surface of wire clamp, and the intensity of locking excellent portion increases, and during crimping, helps curling of wire clamp, helps wire clamp hook portion afterbody applying lead; Locking rod is located at the inside of duct, help the wire clamp inner surface compression and with the interlock of lead, help driving fit with conductor compression jointing, can make duct effectively be line footpath shape lining lead, wire clamp is the approximate circle column after the crimping.
Embodiment five, shown in Fig. 5 A, 5B, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, at the two ends of matrix 1 is two ducts 2,2 ' that contact with electric wire, described two ducts 2, the 2 ' hook portion of two semicircle arcuations up and down by the C font are surrounded, and the duct 2,2 ' at described two ends is the through hole shape, also are provided with two locking ditches 5 on the surface of wire clamp matrix 1.
Shown in Fig. 5 A, described two locking ditches 5 are the approximate V font and parallel with wire clamp length direction groove shape for the cross section, are located at respectively on the summit of inner surface of two ends hook portion 12,13.
Shown in Fig. 5 B, be with Fig. 5 A difference: described locking ditch 5 is located at respectively on the summit of outer surface of two ends hook portion 12,13.
The locking ditch is located at the outer surface of wire clamp hook portion, during crimping, helps reducing the tension stress of outer surface, help hook portion curl and with the driving fit of lead; The locking ditch is located at the inner surface of wire clamp hook portion, during crimping, helps reducing the compression of outer surface, help hook portion curl and with the driving fit of lead.
Embodiment six, shown in Fig. 6 A, 6B, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, at the two ends of matrix 1 is two ducts 2,2 ' that contact with electric wire, described two ducts 2, the 2 ' hook portion of two semicircle arcuations up and down by the C font are surrounded, and the duct 2,2 ' at described two ends is the through hole shape, and it also comprises two locking rods 4.
As shown in Figure 6A, described locking rod 4 be shaped as the semi-cylindrical that is parallel to the wire clamp length direction, be located on the both sides of close hook portion of outer surface of middle waist of C word of matrix 1; Shown in Fig. 6 B, described this locking rod 4 is located on the both sides of close hook portion of inner surface of middle waist 3 of C word of matrix 1.The intensity of locking excellent portion increases, and helps the driving fit of wire clamp and conductor compression jointing, and the wire clamp after the crimping and lead shape linearly, can flexural deformation.
Embodiment seven, shown in Fig. 7 A, 7B, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, at the two ends of matrix 1 is two ducts 2,2 ' that contact with electric wire, described two ducts 2, the 2 ' hook portion of two semicircle arcuations up and down by the C font are surrounded, and the duct 2,2 ' at described two ends is the through hole shape, also are provided with two locking ditches 5 on the surface of wire clamp matrix 1.
Shown in Fig. 7 A, described two locking ditches 5 are the groove shape that is parallel to the wire clamp length direction of approximate square font for the cross section, and two ducts are located at respectively on the both sides of outer surface of middle waist 3 of C font matrix 1; Shown in Fig. 7 B, be with Fig. 7 A difference: described two locking ditches 5 are located at respectively on the both sides of inner surface of middle waist 3 of C font matrix 1.The locking ditch is located at the inner surface of matrix 1, during crimping, helps reducing the pressure variable force of inner surface, help the wire clamp hook portion curl and with the driving fit of lead; The locking ditch is located at the outer surface of matrix 1, during crimping, helps reducing the tension stress of outer surface, help the wire clamp hook portion curl and with the driving fit of lead, at the arranged outside locking ditch of matrix, crimping is initial, ditch portion can extend ahead of time, help duct afterbody applying lead, before crimping stopped, the locking ditch again can the driving fit because of the pressing of " crimping ", just like Yishanmen, the function that folding is arranged can make wire clamp effectively be line footpath shape lining lead, make crimping after wire clamp be near cylindrical.
Embodiment eight, shown in Fig. 8 A, 8B, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, at the two ends of matrix 1 is two ducts 2,2 ' that contact with electric wire, described two ducts 2, the 2 ' hook portion of two semicircle arcuations up and down by C font matrix are surrounded, and the duct 2,2 ' at described two ends is the through hole shape, and it also comprises 4 and two locking ditches 5 of two locking rods.
Shown in Fig. 8 A, described two locking rods 4 are located on the outer surface summit of two hook portions 12,13, and it is shaped as the semi-cylindrical parallel with wire clamp length; Described locking ditch 5 is located at the below of the corresponding locking rod of inner surface of two hook portions 12,13, and it is shaped as the groove shape that is parallel to wire clamp matrix length direction that the cross section is in the shape of the letter V.Shown in Fig. 8 B, described two locking rods 4 and the displacement of described two locking ditch 5 positions.
The combination that locking rod and locking ditch are chosen the inside and outside surface of being located at the wire clamp hook portion more helps the driving fit of wire clamp and lead, and the entity after the crimping is sub-circular more, more can flexural deformation, have better crimping quality.
Embodiment nine, shown in Fig. 9 A, 9B, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, at the two ends of matrix 1 is two ducts 2,2 ' that contact with electric wire, described two ducts 2,2 ' 12,13 of hook portions by two semicircle arcuations up and down of C font matrix surround, and the duct 2,2 ' at described two ends is the through hole shape; On the surface of wire clamp matrix 1, also be provided with 5 locking rods 4.
Shown in Fig. 9 A, 4, point midways of being located at the C font waist outer surface of matrix 1 of described locking rod, other four outer surface C words of being located at hook portion 12,13 are respectively put 1/2 distance apart from semi arch in the summit of semi arch up and down from beginning to end, and this locking rod 4 is the semi-cylindrical parallel with the wire clamp length direction.
Shown in Fig. 9 B, described locking rod 4, an inner surface mid point of being located at matrix 1, other four inner surface C words of being located at hook portion 12,13 are respectively put 1/2 distance apart from semi arch in the summit of semi arch up and down from beginning to end, and this locking rod 4 is the semi-cylindrical parallel with the wire clamp length direction.
Locking rod is located on the inside and outside surface of matrix, can improve the intensity at the excellent position of locking, helps the driving fit of wire clamp and conductor compression jointing, and the wire clamp after the crimping and lead shape linearly, can flexural deformation.Especially the long configuration that more needs reinforcement of wire clamp length.
Embodiment ten, shown in Figure 10 A, 10B, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, at the two ends of matrix 1 is two ducts 2,2 ' that contact with electric wire, described two ducts 2,2 ' 12,13 of hook portions by two semicircle arcuations up and down of C font matrix surround, and the duct 2,2 ' at described two ends is the through hole shape; On the surface of wire clamp matrix 1, also be provided with five locking ditches 5.
Shown in Figure 10 A, described five locking ditches 5, a mid point of being located at the outer surface of matrix 1, other four outer surface C words of being located at hook portion 12,13 are respectively put 1/2 distance apart from semi arch in the summit of semi arch up and down from beginning to end, and this locking ditch 5 is approximate the V font, parallel with wire clamp length direction groove volt for the cross section.
Shown in Figure 10 B, described five locking ditches 5, a mid point of being located at inner surface, other four inner surface C words of being located at hook portion 12,13 are respectively put 1/2 distance apart from semi arch in the summit of semi arch up and down from beginning to end, and this locking ditch 5 is the approximate groove shape V font, parallel with the wire clamp length direction for the cross section.
The locking ditch is located on the surfaces externally and internally of matrix, helps the driving fit of wire clamp and conductor compression jointing, and the wire clamp after the crimping and lead shape linearly, can flexural deformation, and its crimping entity sub-circular.Especially the long configuration that more needs reinforcement of wire clamp length.
Embodiment 11, shown in Figure 11 A, 11B, the crimping sleeve that a kind of transmission and distribution line of the present invention is used, this sleeve pipe is made of the columnar shape basal 1 that the cross section is the C font, at the two ends of matrix 1 is two ducts 2,2 ' that contact with electric wire, described two ducts 2,2 ' 12,13 of hook portions by two semicircle arcuations up and down of C font matrix surround, and the duct 2,2 ' at described two ends is the through hole shape, it also comprises according to the specification difference, arrange full locking rod 4 or locking ditch 5 at the matrix inner surface, its quantity is with the individual density distribution of every centimetre length 1-25.
Shown in Figure 11 A, described locking rod 4 is located at the inner surface of matrix 1, and its quantity is according to specification varying number difference, but with 1-25/cm, row expires the inner surface of matrix 1.This locking rod 4 is the semi-cylindrical parallel with the wire clamp length direction.
Shown in Figure 11 B, described locking ditch 5 is located at the inner surface of matrix 1, and its quantity is according to specification varying number difference, but with 1-25/cm, row expires the inner surface of matrix 1.Locking ditch 5 is the groove shape parallel with the wire clamp length direction of approximate V font for the cross section.
Locking rod and locking ditch are located on the inner surface of matrix full side by side, help the driving fit of wire clamp and conductor compression jointing, and the wire clamp after the crimping and lead shape linearly, can flexural deformation, and its crimping entity sub-circular.Especially wire clamp length is than the long good crimping effect that has more.
Shown in Figure 12 A, described locking rod 4 is located at the inner surface of matrix 1, and its quantity is according to specification varying number difference, but with 1-25/cm, row expires the inner surface of matrix 1; This locking rod 4 is for being parallel to the semi-cylindrical of wire clamp length direction.Described locking ditch 5 is located at the tail end of the hook portion outer surface vertex of wire clamp to the hook portion circular arc, and its quantity is according to specification difference, quantity difference, but with 1-25/cm, till row is full.This locking ditch 5 is the approximate groove shape V font, that be parallel to the wire clamp length direction for the cross section.
Shown in Figure 12 B, described locking ditch 5 is located at the inner surface of matrix 1, and its quantity is according to specification varying number difference, but with 1-25/cm, the inner surface of the full matrix 1 of row, this locking ditch 5 are the groove shape that is parallel to the wire clamp length direction of approximate V font for the cross section.Described locking rod 4 be located at duct 2,2 ' hook portion outer surface vertex to the tail end of hook portion circular arc, its quantity is according to specification difference, quantity difference, but with 1-25/cm, till row is full.This locking rod is for being parallel to the semi-cylindrical of wire clamp length direction.
Locking rod 4 and locking ditch 5 are located on the inner surface of matrix 1 and the outer surface of being located at duct is expired on the tail end toward hook portion opening circular arc side by side from vertex, help most wire clamp and conductor compression jointing and driving fit, and wire clamp after the crimping and lead be shape linearly, can flexural deformation, the entity sub-circular of crimping again, especially wire clamp length is long has more best crimping effect.
What should give explanation is, locking depression 6 of the present invention be spot distribution on the inside and outside surface of matrix 1, its quantity is 1-25/square centimeter.The shape of this lock projection can be arbitrary shapes such as semi-spherical shape, semi-cylindrical form, prism shape, square post shapes or V font column, this locking depression be shaped as that hemisphere is cave-shaped, arbitrary shape such as semi-circular groove shape, prismatic groove shape, rectangular channel shape or V font groove shape, this lock projection or locking depression are can also be for the length direction of folder along the line linearly or distribute with uneven oblique line shape of wire clamp length direction or zigzag shape, and lock projection or locking depression itself axis can with the parallel placement of wire clamp length direction, also can not parallelly place; And lock projection or locking depression can be for continuous or be interrupted when linearly, oblique line shape or zigzag shape distribute, and constitute locking rod 4 or locking ditch 5, and described locking rod 4 can be singly excellent, also can how excellent; During rod more than adopting, can be big or small identical, also can vary in size.Described locking ditch 5 can single ditch, also can many ditches; When adopting many ditches, can be big or small identical, also can vary in size.Rod is many more with the quantity of ditch, and promptly depression is many more with the quantity of projection, and the production difficulty is high more, and cost is high more, but the pressing effect is good more, so can locking ditch and locking rod be set economically according to the needs of application target or lock the quantity of depression and lock projection.
What also should illustrate is, the C shape crimping sleeve that this transmission and distribution line is used, and outside copper removal, the aluminium material, other metal material all also can be produced according to this structural design.C shape copper crimping sleeve is applicable to that copper cash to the copper cash crimping, is not suitable for the aluminum steel crimping, and softer because of the aluminum steel material, copper jointing clamp material is harder, and during crimping, disconnected burst phenomenon can take place aluminum steel.C shape aluminium jointing clamp is applicable to aluminum steel to the aluminum steel crimping, also is applicable to aluminum steel to the copper cash crimping, is not proposed to be used in copper cash to the copper cash crimping, but except the temporary line.
What also should give explanation is, this C shape copper, aluminium jointing clamp/sleeve pipe are produced foregoing 32 kinds of specifications except that designing, and littler or bigger line footpath can produce according to this structural design.Table one, U.S. rule C type copper crimping sleeve stretching resistance test card:
Date: June 3 calendar year 2001
Table two, C type copper crimping sleeve stretching resistance test card of the present invention
Specification | Wire diameter (m/m) | Result of the test | Judge | ||
The A duct | The B duct | Standard value (kg) | Measured value (Kg) | ||
??6Sol-4Str,8Sol-8Str | ???6Sol | ??8Sol | ????136 | ????128 | ????× |
???4Str | ??8Str | ????136 | ????139 | ????∨ | |
??6Sol-4Str,4Sol-4Str | ???6Sol | ??4Sol | ????136 | ????131 | ????× |
???4Str | ??4Str | ????136 | ????141 | ????∨ | |
???????????1/0 ??Str-2/0Str,8Sol-2Str | ??1/0Str | ??8Sol | ????136 | ????122 | ????× |
??1/0Str | ??2Str | ????136 | ????138 | ????∨ | |
??2/0Str | ??8Sol | ????136 | ????125 | ????× | |
??2/0Str | ??2Str | ????136 | ????145 | ????∨ | |
??3/0Str-4/0Str,6Sol-2 ???????????Str | ??3/0Str | ??6Sol | ????136 | ????132 | ????× |
??3/0Str | ??2Str | ????136 | ????141 | ????∨ | |
??4/0Str | ??6Sol | ????136 | ????134 | ????× | |
??4/0Str | ??2Str | ????136 | ????143 | ????∨ | |
??3/0Str-4/0Str,3/0Str ????????-4/0Str | ??3/0Str | ??3/0Str | ????227 | ????224 | ????× |
??4/0str | ??3/0Str | ????227 | ????245 | ????∨ | |
??4/0Str | ??4/0Str | ????227 | ????251 | ????∨ | |
Can test: test: |
Date: 5-8 day June calendar year 2001
The U.S. rule of table three C type aluminium crimping sleeve stretching resistance test card:
Specification | Wire diameter | Result of the test | Judge | ||
The A duct | The B duct | Standard value (kg) | Measured value (Kg) | ||
????16-35,16-35 | ????16 | ????16 | ????136 | ????229 | ????∨ |
????35 | ????16 | ????136 | ????232 | ????∨ | |
????35 | ????16 | ????136 | ????255 | ????∨ | |
????50-70,16-35 | ????50 | ????16 | ????136 | ????235 | ????∨ |
????50 | ????35 | ????136 | ????256 | ????∨ | |
????70 | ????16 | ????136 | ????231 | ????∨ | |
????70 | ????35 | ????136 | ????250 | ????∨ | |
????50-70,50-70 | ????50 | ????50 | ????136 | ????315 | ????∨ |
????70 | ????50 | ????136 | ????318 | ????∨ | |
????70 | ????70 | ????227 | ????323 | ????∨ | |
????95 | ????16 | ????136 | ????230 | ????∨ |
????95-120,16-35 | ????95 | ????35 | ????136 | ????256 | ???∨ |
????120 | ????16 | ????136 | ????233 | ???∨ | |
????120 | ????35 | ????136 | ????255 | ???∨ | |
????95-120,50-70 | ????95 | ????50 | ????136 | ????315 | ???∨ |
????95 | ????70 | ????227 | ????325 | ???∨ | |
????120 | ????50 | ????136 | ????328 | ???∨ | |
????120 | ????70 | ????227 | ????335 | ???∨ | |
????95-120-,95-120 | ????95 | ????95 | ????227 | ????505 | ???∨ |
????120 | ????95 | ????227 | ????515 | ???∨ | |
????120 | ????120 | ????454 | ????536 | ???∨ | |
????150-185-,16-35 | ????150 | ????16 | ????136 | ????230 | ???∨ |
????150 | ????35 | ????136 | ????250 | ???∨ | |
????185 | ????16 | ????136 | ????233 | ???∨ | |
????185 | ????35 | ????136 | ????257 | ???∨ | |
????150-185,50-70 | ????150 | ????50 | ????136 | ????309 | ???∨ |
????150 | ????70 | ????227 | ????318 | ???∨ | |
????185 | ????50 | ????136 | ????321 | ???∨ | |
????185 | ????70 | ????227 | ????328 | ???∨ | |
????150-185,95-120 | ????150 | ????95 | ????227 | ????512 | ???∨ |
????150 | ????120 | ????454 | ????515 | ???∨ | |
????185 | ????95 | ????227 | ????526 | ???∨ | |
????185 | ????120 | ????454 | ????545 | ???∨ | |
????150-185,150-185 | ????150 | ????150 | ????454 | ????535 | ???∨ |
????185 | ????150 | ????454 | ????538 | ???∨ | |
????185 | ????185 | ????454 | ????553 | ???∨ | |
????210-240,16-35 | ????210 | ????16 | ????136 | ????228 | ???∨ |
????210 | ????35 | ????136 | ????252 | ???∨ | |
????240 | ????16 | ????136 | ????231 | ???∨ | |
????240 | ????35 | ????136 | ????257 | ???∨ | |
????210-240,50-70 | ????210 | ????50 | ????136 | ????285 | ???∨ |
????210 | ????70 | ????227 | ????335 | ???∨ | |
????240 | ????50 | ????136 | ????290 | ???∨ | |
????240 | ????70 | ????227 | ????343 | ???∨ | |
????210-240,95-120 | ????210 | ????95 | ????227 | ????523 | ???∨ |
????210 | ????120 | ????454 | ????531 | ???∨ | |
????240 | ????95 | ????227 | ????528 | ???∨ | |
????240 | ????120 | ????454 | ????540 | ???∨ |
????210-240,150-185 | ????210 | ????150 | ????454 | ????525 | ???∨ |
????210 | ????185 | ????454 | ????533 | ???∨ | |
????240 | ????150 | ????454 | ????530 | ???∨ | |
????240 | ????185 | ????454 | ????545 | ???∨ | |
????210-240,210-240 | ????210 | ????210 | ????454 | ????538 | ???∨ |
????210-240,210-240 | ????240 | ????210 | ????454 | ????543 | ???∨ |
????210-240,210-240 | ????240 | ????240 | ????454 | ????556 | ???∨ |
Can test: test: |
Date: August 3 calendar year 2001
Table four is a C type aluminium crimping sleeve stretching resistance test card of the present invention:
Specification | Wire diameter | Result of the test | Judge | ||
The A duct | The B duct | Standard value (kg) | Measured value (Kg) | ||
??6Sol-4Str,8Sol-8Str | ????6SOl | ????8Sol | ????136 | ????128 | ????× |
????4Str | ????8Str | ????136 | ????139 | ????∨ | |
??6Sol-4Str,4Sol-4Str | ????6SOl | ????4Sol | ????136 | ????131 | ????× |
????4Str | ????4Str | ????136 | ????141 | ????∨ | |
???????????1/0 ??Str-2/0Str,8Sol-2Str | ???1/0Str | ????8Sol | ????136 | ????122 | ????× |
???1/0Str | ????2Str | ????136 | ????138 | ????∨ | |
???2/0Str | ????8Sol | ????136 | ????125 | ????× | |
???2/0Str | ????2Str | ????136 | ????145 | ????∨ | |
??3/0Str-4/0Str,6Sol-2 ??????????Str | ???3/0Str | ????6Sol | ????136 | ????132 | ????× |
???3/0Str | ????2Str | ????136 | ????141 | ????∨ | |
???4/0Str | ????6Sol | ????136 | ????134 | ????× | |
???4/0Str | ????2Str | ????136 | ????143 | ????∨ | |
??3/0Str-4/0Str,3/0Str ?????????-4/0Str | ???3/0Str | ???3/0Str | ????227 | ????224 | ????× |
???4/0str | ???3/0Str | ????227 | ????245 | ????∨ | |
???4/0Str | ???4/0Str | ????227 | ????251 | ????∨ | |
Can test: test: |
Date: 6-9 day August calendar year 2001
Specification | Wire diameter (m/m 2) | Result of the test | Judge | ||
The A duct | The B duct | Standard value (kg) | Measured value (kg) | ||
????16-35,16-35 | ????16 | ????16 | ????136 | ????235 | ????∨ |
????35 | ????16 | ????136 | ????238 | ????∨ | |
????35 | ????35 | ????136 | ????251 | ????∨ | |
????50-70,16-35 | ????50 | ????16 | ????136 | ????232 | ????∨ |
????50 | ????35 | ????136 | ????241 | ????∨ | |
????70 | ????16 | ????136 | ????239 | ????∨ | |
????70 | ????35 | ????136 | ????251 | ????∨ | |
????50-70,50-70 | ????50 | ????50 | ????136 | ????313 | ????∨ |
????70 | ????50 | ????136 | ????316 | ????∨ | |
????70 | ????70 | ????227 | ????325 | ????∨ | |
????95-120,16-35 | ????95 | ????16 | ????136 | ????228 | ????∨ |
????95 | ????35 | ????136 | ????235 | ????∨ | |
????95-120,16-35 | ????120 | ????16 | ????136 | ????230 | ????∨ |
????120 | ????35 | ????136 | ????248 | ????∨ | |
????95-120,50-70 | ????95 | ????50 | ????136 | ????312 | ????∨ |
????95 | ????70 | ????227 | ????323 | ????∨ | |
????120 | ????50 | ????136 | ????329 | ????∨ | |
????120 | ????70 | ????227 | ????331 | ????∨ | |
????95-120,95-120 | ????95 | ????95 | ????227 | ????513 | ????∨ |
????120 | ????95 | ????227 | ????520 | ????∨ | |
????120 | ????120 | ????454 | ????545 | ????∨ | |
????150-185,16-35 ????150-185,16-35 ????150-185,16-35 | ????150 | ????16 | ????136 | ????234 | ????∨ |
????150 | ????35 | ????136 | ????245 | ????∨ | |
????185 | ????16 | ????136 | ????236 | ????∨ | |
????185 | ????35 | ????136 | ????256 | ????∨ | |
????150-185,50-70 | ????150 | ????50 | ????136 | ????305 | ????∨ |
????150 | ????70 | ????227 | ????320 | ????∨ | |
????185 | ????50 | ????136 | ????323 | ????∨ | |
????185 | ????70 | ????227 | ????325 | ????∨ | |
????150-185,95-120 | ????150 | ????95 | ????227 | ????504 | ????∨ |
????150 | ????120 | ????454 | ????510 | ????∨ | |
????185 | ????95 | ????227 | ????516 | ????∨ | |
????185 | ????120 | ????454 | ????535 | ????∨ | |
????150-185,150-185 | ????150 | ????150 | ????454 | ????531 | ????∨ |
????185 | ????150 | ????454 | ????536 | ????∨ | |
????185 | ????150 | ????454 | ????551 | ????∨ |
????210-240,16-35 | ????210 | ????16 | ????136 | ????230 | ???∨ |
????210 | ????35 | ????136 | ????243 | ???∨ | |
????240 | ????16 | ????136 | ????235 | ???∨ | |
????240 | ????35 | ????136 | ????248 | ???∨ | |
????210-240,50-70 | ????210 | ????50 | ????136 | ????295 | ???∨ |
????210-240,50-70 | ????210 | ????70 | ????227 | ????328 | ???∨ |
????240 | ????50 | ????136 | ????310 | ???∨ | |
????240 | ????70 | ????227 | ????334 | ???∨ | |
????210-240,95-120 | ????210 | ????95 | ????227 | ????515 | ???∨ |
????210 | ????120 | ????454 | ????529 | ???∨ | |
????240 | ????95 | ????227 | ????535 | ???∨ | |
????240 | ????120 | ????454 | ????538 | ???∨ | |
????210-240,150-185 | ????210 | ????150 | ????454 | ????525 | ???∨ |
????210 | ????185 | ????454 | ????531 | ???∨ | |
????240 | ????150 | ????454 | ????528 | ???∨ | |
????240 | ????185 | ????454 | ????543 | ???∨ | |
????210-240,210-240 | ????210 | ????210 | ????454 | ????532 | ???∨ |
????240 | ????210 | ????454 | ????541 | ???∨ | |
????240 | ????240 | ????454 | ????556 | ???∨ | |
Can test: test: |
Claims (10)
1. crimping sleeve that transmission and distribution line is used, this sleeve pipe is made of the columnar shape basal (1) that the cross section is the C font, the hook portion (12) of the semicircle arcuation at the C font two ends of matrix (1) surrounds two ducts that contact with electric wire (2) and (2 ') with (13), described two ducts (2) are the through hole shape with (2 '), it is characterized in that:
On the surfaces externally and internally of matrix (1), be provided be randomly spot distribution, inwardly recessed locking depression (6) or/and be provided be randomly spot distribution, outside outstanding lock projection (7).
2. the crimping sleeve that transmission and distribution line according to claim 1 is used is characterized in that: described locking depression (6) is 1-25/cm
2Distribute, described lock projection (7) is 1-25/cm
2Distribute.
3. the crimping sleeve that transmission and distribution line according to claim 2 is used, it is characterized in that: described locking depression (6) is the linearity parallel with the length direction of matrix (1) or is and the uneven linearity of length direction or the zigzag shape of matrix (1) distribute discontinuously, constitutes the locking ditch (5) of at least one linearity that inwardly concaves, oblique line shape or zigzag shape that vertically is the interruption state; Described lock projection (7) is the linearity parallel with the length direction of matrix (1) or is and the uneven linearity of length direction or the zigzag shape of matrix (1) distribute discontinuously, constitutes the locking rod (4) of at least one linearity to outer process that vertically is the interruption state, oblique line shape or zigzag shape.
4. the crimping sleeve that transmission and distribution line according to claim 2 is used, it is characterized in that: described locking depression (6) is the linearity parallel with the length direction of matrix (1) or is and the uneven linearity of length direction or the zigzag shape of matrix (1) distribute continuously, constitutes the locking ditch (5) of at least one linearity that inwardly concaves, oblique line shape or zigzag shape that vertically is continuous state; Described lock projection (7) is the linearity parallel with the length direction of matrix (1) or is and the uneven linearity of length direction or the zigzag shape of matrix (1) distribute continuously, constitutes the locking rod (4) of at least one linearity to outer process that vertically is continuous state, oblique line shape or zigzag shape.
5. the crimping sleeve of using according to claim 1,2,3,4 one of them described transmission and distribution line is characterized in that: being shaped as of described locking depression (6) is hemispherical, semi-cylindrical, prism-shaped or square column a kind of; Being shaped as of described lock projection (7) is hemispherical, semi-cylindrical, prism-shaped or square column a kind of.
6. crimping sleeve that transmission and distribution line is used, this sleeve pipe is made of the columnar shape basal (1) that the cross section is the C font, the hook portion (12) of the semicircle arcuation at the C font two ends of matrix (1) surrounds two ducts that contact with electric wire (2) and (2 ') with (13), described two ducts (2) are the through hole shape with (2 '), it is characterized in that:
On the inside and outside surface of matrix (1), be provided with a locking rod (4) to outer process at least or/and a locking ditch (5) that inwardly concaves.
7. the crimping sleeve that transmission and distribution line according to claim 6 is used, it is characterized in that: a kind of for to semi-cylindrical, prism-shaped or the square column of outer process of described locking rod (4), and should locking rod (4) be linearity or the uneven oblique line shape parallel with the length direction of matrix (1) or be along the length direction of matrix (1) wire a kind of in the shape of a spiral; The ditch shape of described locking ditch (5) for inwardly concaving, its cross section is semicircle, arc, V font, quadrangle or polygonal a kind of, and this locking ditch (5) be linearity parallel with the length direction of matrix (1) or uneven oblique line shape or is along the length direction of matrix (1) wire a kind of in the shape of a spiral.
8. the crimping sleeve of using according to claim 3,4,6 or 7 one of them described transmission and distribution line is characterized in that: described locking rod (4) is when a plurality of, and the cross section size at its place, maximum cross-section is identical or different; When described locking ditch (5) was a plurality of, the cross section size at its place, maximum cross-section was identical or different.
9. the crimping sleeve of using according to claim 1 or 6 described transmission and distribution lines, it is characterized in that: two ducts (2) of the through hole shape of described C font, the internal diameter of (2 ') are identical, or duct diameter is greater than the diameter of another duct.
10. the crimping sleeve of using according to claim 1 or 6 described transmission and distribution lines is characterized in that: described sleeve pipe is a kind of in aluminium, copper, copper alloy, the aluminium alloy.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNB011419105A CN1175525C (en) | 2001-09-21 | 2001-09-21 | Crimped casing for electric transmission and distribution wire |
AU2002221448A AU2002221448A1 (en) | 2000-10-23 | 2001-10-23 | Crimping sleeve for transmission and distribution line |
PCT/CN2001/001496 WO2002035654A1 (en) | 2000-10-23 | 2001-10-23 | Crimping sleeve for transmission and distribution line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNB011419105A CN1175525C (en) | 2001-09-21 | 2001-09-21 | Crimped casing for electric transmission and distribution wire |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1409439A true CN1409439A (en) | 2003-04-09 |
CN1175525C CN1175525C (en) | 2004-11-10 |
Family
ID=4676479
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CNB011419105A Expired - Fee Related CN1175525C (en) | 2000-10-23 | 2001-09-21 | Crimped casing for electric transmission and distribution wire |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN1175525C (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1702120B (en) * | 2005-06-21 | 2010-12-01 | 中国海洋大学 | Organic-polymer-coated nano cuprous oxide and its preparation process and use |
CN101916946A (en) * | 2010-08-20 | 2010-12-15 | 深圳市振恺塑胶五金有限公司 | Laminated type rubber coating line card and manufacturing and fixing method |
CN101106218B (en) * | 2005-08-22 | 2011-11-16 | 埃尔普雷斯股份有限公司 | A sleeve adapted for a crimping process |
CN103296499A (en) * | 2013-05-18 | 2013-09-11 | 马栋梁 | Electrical connecting wire clamp |
CN108808281A (en) * | 2018-06-13 | 2018-11-13 | 贵州电网有限责任公司 | A kind of multiply flexible cord crimp head |
CN111145940A (en) * | 2019-12-13 | 2020-05-12 | 上海航天科工电器研究院有限公司 | Mixed-loading bunched cable for through-wall sealing and use method thereof |
-
2001
- 2001-09-21 CN CNB011419105A patent/CN1175525C/en not_active Expired - Fee Related
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1702120B (en) * | 2005-06-21 | 2010-12-01 | 中国海洋大学 | Organic-polymer-coated nano cuprous oxide and its preparation process and use |
CN101106218B (en) * | 2005-08-22 | 2011-11-16 | 埃尔普雷斯股份有限公司 | A sleeve adapted for a crimping process |
CN101916946A (en) * | 2010-08-20 | 2010-12-15 | 深圳市振恺塑胶五金有限公司 | Laminated type rubber coating line card and manufacturing and fixing method |
CN103296499A (en) * | 2013-05-18 | 2013-09-11 | 马栋梁 | Electrical connecting wire clamp |
CN108808281A (en) * | 2018-06-13 | 2018-11-13 | 贵州电网有限责任公司 | A kind of multiply flexible cord crimp head |
CN108808281B (en) * | 2018-06-13 | 2023-08-18 | 贵州电网有限责任公司 | Multi-strand flexible wire pressure joint |
CN111145940A (en) * | 2019-12-13 | 2020-05-12 | 上海航天科工电器研究院有限公司 | Mixed-loading bunched cable for through-wall sealing and use method thereof |
CN111145940B (en) * | 2019-12-13 | 2021-07-27 | 上海航天科工电器研究院有限公司 | Mixed-loading bunched cable for through-wall sealing and use method thereof |
Also Published As
Publication number | Publication date |
---|---|
CN1175525C (en) | 2004-11-10 |
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SE01 | Entry into force of request for substantive examination | ||
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Granted publication date: 20041110 Termination date: 20200921 |