CN217361187U - Polyethylene insulation low-voltage multi-core shielding control cable - Google Patents

Abstract

The utility model relates to a control cable technical field particularly relates to polyethylene insulation low pressure multicore shielding control cable, including buffer core, interior buffer layer, outer buffer layer, power control layer, outer shielding layer and oversheath, wherein, outer shielding layer includes shielding area and the fixed buffering strip that sets up in its one side, the fixed lubricating strip that is provided with in opposite side of shielding area, the shielding area spiral is around the package form in the outer buffer layer outside the outer shielding layer; conductive element extrudees each other when twisting, can effectually provide the buffering with the fire-retardant strip of buffering that conductive element interval circumference was arranged, and after the torsional force was cancelled, under the elastic webbing effect of the cotton material of pearl, the fire-retardant strip elastic recovery of buffering, after twisting for a long time many times, the elastic webbing of the cotton material of pearl still has good elastic recovery ability performance, and the cable after twisting deformation resumes to provide elastic recovery power, prevents that the cable from taking place permanent deformation, guarantees the shielding effect of cable.

Description

Polyethylene insulation low-voltage multi-core shielding control cable

Technical Field

The utility model relates to a control cable technical field particularly relates to insulating low pressure multicore shielding control cable of polyethylene and.

Background

The plastic multi-core insulated control cable is suitable for transmission lines used in occasions such as automatic control or monitoring systems with the AC rated voltage of 450V and below, connection of electrical instruments and the like, after the control cable is put into operation, the problem of electrical interference exists between different wire cores of the same cable and between adjacent cables laid in parallel, when high-voltage and high-current interference sources exist in the adjacent cables, the electrical interference is more serious, and the normal work of the control cable is seriously affected, so that the electromagnetic shielding resistance of the control cable is particularly important.

Because the inside control wire of insulating control cable is more, and the transposition each other, make the control wire attached together each other, lay or use the robot at the cable, when control action more equipment such as arm, the range of motion of equipment is great, the frequency of movement is higher, make the control cable shake torsion by a wide margin for a long time high frequency, because the control wire is the spiral transposition, when the cable twists reverse, the control wire can be along the circumference and the axial extrusion each other of cable, the shielding layer of control wire takes place deformation damage easily under the pressure effect, reduce the effect of electromagnetic shield, simultaneously, it causes great pulling force to twist the metal shielding area of outside spiral package, the metal shielding area is damaged easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the defects of the prior art, provide an insulating low pressure multicore shielding control cable of polyethylene, include:

the outer side of the buffer core is sequentially provided with two power control layers with opposite twisting directions;

the inner buffer layer is coated outside the power control layer at the inner side;

the outer buffer layer is coated outside the power control layer on the outer side;

the electric control layer is formed by twisting a plurality of conductive units and buffering flame-retardant strips which are arranged at intervals;

the outer shielding layer is coated on the outer side of the outer buffer layer;

the outer sheath is coated on the outer side of the outer shielding layer;

wherein, outer shielding layer includes shielding area and the fixed buffering strip that sets up in its one side, the fixed lubricating strip that is provided with of opposite side in shielding area, shielding area spiral is around the package outer buffer layer outside forms outer shielding layer, the buffering strip with outer buffer layer contacts, lubricating strip takes to cover in the last section outside and is located buffering strip one end is taken the lid around the package formation.

Preferably, the conductive unit comprises a conductive wire core and an insulating layer extruded on the outer side of the conductive wire core, and an inner shielding layer used for shielding electromagnetic interference is wound on the outer side of the insulating layer.

Preferably, the inner shielding layer is an aluminum foil foam layer.

Preferably, the buffering flame-retardant strip comprises an elastic belt for elastic buffering and a flame-retardant layer for flame retardance positioned on the inner side of the elastic belt, the elastic belt and the flame-retardant layer are integrally wrapped to form the buffering flame-retardant strip, and the diameter of the buffering flame-retardant strip is the same as that of the conductive unit.

Preferably, the elastic band is a pearl cotton band.

Preferably, the flame retardant layer is an expanded graphite layer.

Preferably, the lubricating strip is an aluminum foil layer.

Preferably, the lubricating strip is a conductive graphite layer.

Preferably, the outer sheath has a thickness of 3 mm.

Compared with the prior art, the utility model discloses an insulating low pressure multicore shielding control cable of polyethylene is showing beneficial effect lies in:

conductive unit extrudees each other when twisting, can effectually provide the buffering with the fire-retardant strip of buffering that conductive unit interval circumference was arranged, prevent that conductive unit's internal shield layer from taking place the damage, cancel the back at the torsional force, under the elastic webbing effect of the cotton material of pearl, the fire-retardant strip elastic recovery of buffering, twist reverse the back for a long time many times, the elastic webbing of the cotton material of pearl still has good elastic recovery ability performance, the cable after the torsional deformation resumes to provide elastic recovery, prevent that the cable from taking place permanent deformation, guarantee the shielding effect of cable, when the shielding area that the spiral wound package was twisted round because of the cable and take place the phenomenon that the diameter reduces, the buffering strip can effectively cushion being in spiral state shielding area, reduce the pulling force that the shielding area received because of twisting, guarantee the whole shielding effect of shielding area.

It should be understood that all combinations of the foregoing concepts and additional concepts described in greater detail below can be considered as part of the inventive subject matter of the present disclosure unless such concepts are mutually inconsistent. In addition, all combinations of claimed subject matter are considered a part of the inventive subject matter of this disclosure.

The foregoing and other aspects, embodiments and features of the present teachings can be more fully understood from the following description in conjunction with the accompanying drawings. Additional aspects of the present invention, such as features and/or advantages of exemplary embodiments, will be apparent from the description which follows, or may be learned by practice of the specific embodiments in accordance with the teachings of the present invention.

Drawings

The drawings are not intended to be drawn to scale. In the drawings, each identical or nearly identical component that is illustrated in various figures may be represented by a like numeral. For purposes of clarity, not every component may be labeled in every drawing. Embodiments of various aspects of the present invention will now be described, by way of example, with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural view of the polyethylene insulated low-voltage multi-core shielded control cable of the present invention;

fig. 2 is a schematic view of the layered structure of the polyethylene insulated low-voltage multi-core shielded control cable according to the present invention;

fig. 3 is a schematic view of the structure of the conductive unit of the polyethylene insulated low-voltage multi-core shielded control cable according to the present invention;

fig. 4 is a schematic structural view of a buffering flame retardant strip of the polyethylene insulated low-voltage multi-core shielding control cable of the present invention;

fig. 5 is a schematic structural view of an outer shielding layer of the polyethylene insulated low-voltage multi-core shielded control cable according to the present invention;

fig. 6 is the utility model discloses an outer shielding layer of polyethylene insulation low pressure multicore shielding control cable winds the package sketch map.

Detailed Description

For a better understanding of the technical content of the present invention, specific embodiments are described below in conjunction with the accompanying drawings.

In this disclosure, aspects of the present invention are described with reference to the accompanying drawings, in which a number of illustrative embodiments are shown. Embodiments of the present disclosure are not necessarily intended to include all aspects of the invention. It should be appreciated that the various concepts and embodiments described above, as well as those described in greater detail below, may be implemented in any of numerous ways, as the disclosed concepts and embodiments are not limited to any implementation. Additionally, some aspects of the present disclosure may be used alone or in any suitable combination with other aspects of the present disclosure.

Because the internal deformation buffer distance of the existing plastic insulation control cable is smaller, when the cable is laid or applied to equipment with more control actions such as robots, mechanical arms and the like, the equipment has larger moving amplitude and higher moving frequency, so that the control cable can greatly shake and twist with high frequency for a long time, when the cable is twisted, the control lead can be mutually extruded along the circumferential direction and the axial direction of the cable to generate overlarge pressure, the shielding layer of the control lead is easy to deform and damage under the action of the overlarge pressure, the electromagnetic shielding effect is reduced, meanwhile, the twisting causes a large pulling force on the metal shielding tape spirally wound outside, and the metal shielding tape is easily damaged by pulling, so that a polyethylene insulated low-voltage multi-core shielding control cable is urgently needed, when the torsion occurs, the torsion resistance of the shielding layer of the control wire and the metal shielding belt is improved, and the damage risk is reduced.

With reference to fig. 1, fig. 2, fig. 3 and fig. 4, the utility model provides a polyethylene insulation low pressure multicore shielding control cable, including buffer core 1, conductive element 2, the fire-retardant strip 3 of buffering, interior buffer layer 4, outer buffer layer 5, outer shielding layer 6 and oversheath 7.

Wherein, the outside of buffer core 1 is equipped with two opposite electric control layers of transposition direction in proper order, and electric control layer is twisted with 3 transposition of buffering fire-retardant strip through the electrically conductive unit 2 of a plurality of interval arrangement.

In an optional embodiment, the buffer core 1 is made of butadiene rubber, has the characteristics of high elasticity, good wear resistance, good flexing resistance and good dynamic performance, and can effectively buffer the extrusion force generated by the conductive unit 2 when the cable is twisted.

Further, the conductive unit 2 includes a conductive wire core 21 and an insulating layer 22 extruded on the outer side of the conductive wire core, and an inner shielding layer 23 for shielding electromagnetic interference is wrapped on the outer side of the insulating layer 22.

In optional embodiment, conductive core 21 adopts annealing copper conductor, it is when guaranteeing to have good electric conductivity, good flexibility has, insulating layer 22 adopts fire-retardant PVC material, it has good insulating flame retardant efficiency, internal shield layer 23 is the cotton layer of aluminium foil bubble, adopt the cotton package of aluminium foil bubble to form around the package, the cotton pure aluminium foil of compliance and glass fiber complex of adopting of aluminium foil bubble form, it has good shielding effect, and high temperature resistance can be better, effectually carry out the electromagnetic shield to conductive core 21, play thermal-insulated effect simultaneously.

Further, the buffering flame-retardant strip 3 comprises an elastic belt 31 for elastic buffering and a flame-retardant layer 32 for flame-retardant located at the inner side of the elastic belt 31, the elastic belt 31 and the flame-retardant layer 32 are integrally wrapped to form the buffering flame-retardant strip 3, and the diameter of the buffering flame-retardant strip 3 is the same as that of the conductive unit 2.

In the optional embodiment, elastic webbing 31 is the cotton area of pearl, it has that deformation recoverability is good, the characteristics that toughness is strong and anticollision is strong, and simultaneously, good anti-chemical performance has, fire-retardant layer 32 is the expanded graphite layer, it has extremely strong pliability and self-lubricity, can not cause too big resistance to the torsional bending of cable, and simultaneously, it is when meetting high temperature, but the volume rapid expansion, absorb the heat, when the short circuit fusing of taking place inside the cable is lighted a fire, the expanded graphite receives the quick expansion of high temperature influence, and absorb the heat fast, block up the intensity of a fire and spread the passageway, play fire-retardant purpose.

So, when the cable takes place to twist reverse, conductive element 2 extrudees each other when twisting, can effectually provide the buffering with the fire-retardant strip 3 of buffering that conductive element 2 interval circumference was arranged, prevent that conductive element 2's internal shield layer 23 from taking place the damage, after the torsional force cancels, under the elastic webbing 31 effect of the cotton material of pearl, the fire-retardant strip 3 elastic recovery of buffering, after twisting for a long time many times, the elastic webbing 31 of the cotton material of pearl still has good elastic recovery ability performance, the cable after twisting deformation resumes and provides elastic recovery power, prevent that the cable from taking place permanent deformation, guarantee the shielding effect of cable, and simultaneously, the inflation graphite of the interior package of elastic webbing 31 receives quick inflation when high temperature influences, and the heat is absorbed fast, block up the intensity of a fire and spread the passageway, play fire-retardant purpose.

Further, the outer side of the inner power control layer is wrapped with an inner buffer layer 4, and the outer side of the outer power control layer is wrapped with an outer buffer layer 5.

In an optional embodiment, the inner buffer layer 4 and the outer buffer layer 5 are made of butadiene rubber, and have the characteristics of high elasticity, good wear resistance, good flexing resistance and good dynamic performance, so that when the cable is twisted, the extrusion force generated by the conductive units 2 can be effectively buffered, and the damage of the shielding layer caused by the mutual extrusion of the conductive units 2 is prevented.

As shown in fig. 1, 5, and 6, the outer shield layer 6 covers the outer side of the outer buffer layer 5.

Further, outer shielding layer 6 includes shielding area 61 and the fixed buffering strip 62 that sets up in its one side, and the fixed lubricating strip 63 that is provided with of opposite side of shielding area 61, shielding area 61 spiral form outer shielding layer 6 around the package in outer buffer layer 5 outside, and buffering strip 62 and outer buffer layer 5 contact, lubricating strip 63 take to cover in last a lesson outside and lie in buffering strip 62 one end, form around the package and take lid 601.

In an optional embodiment, the shielding tape 61 is a copper shielding tape and has a good shielding effect, the buffering strip 62 is made of pearl cotton and has the characteristics of good deformation recovery, strong toughness and strong impact resistance, the buffering strip still has good elastic recovery performance after being pressed for many times, and the lubricating tape 63 is an aluminum foil layer and has conductivity and high strength, so that the cable is not easy to be damaged due to friction when twisted.

In an alternative embodiment, the lubricating strip 63 is a conductive graphite layer, which has good conductivity and has less influence on the shielding effect of the copper shielding strip 61.

So, when the phenomenon that the diameter reduces takes place for the cable torsion at the shielding area 61 that the spiral was wrapped, buffering strip 62 can effectively cushion being in spiral state shielding area 61, reduces shielding area 61 because of the tensile force that twists reverse and receive, and simultaneously, during shielding area 61 rotational friction, the lubricated area 63 of aluminium foil material or electrically conductive graphite material played lubricated effect, prevents shielding area 61 direct contact friction, guarantees shielding area 61's whole shielding effect simultaneously.

As shown in fig. 1, 2, and 5, the outer sheath 7 covers the outer side of the outer shield layer 6.

Further, the thickness of oversheath 7 is 3mm, guarantees its effectual protective effect.

In an optional embodiment, the outer sheath 7 is made of a polyurethane material, and has the characteristics of high strength, tear resistance and good wear resistance, so that the interior of the cable is effectively protected, and the normal operation of the cable is ensured.

The utility model discloses a processing technology of polyethylene insulation low pressure multicore shielding control cable, including following step:

step 1, manufacturing a conductive unit 2:

1-1) extruding the flame-retardant PVC material to the outer side of the conductive wire core 21 by using an extruder to form an insulating layer 22;

1-2) wrapping the aluminum foil foam on the outer side of the insulating layer 22 by using a winding machine to form an inner shielding layer 23, wherein during wrapping, the flexible pure aluminum foil is positioned on the outer side, and the glass fiber is positioned on the inner side and attached to the insulating layer 22.

Step 2, manufacturing a buffering flame-retardant strip 3:

2-1) flatly paving the expanded graphite particles on the surface of the elastic belt 31 to form a flame-retardant layer 32, wherein the paving thickness is 0.5 mm;

2-2) then rolling the elastic band 31 with the expanded graphite particles laid thereon, and the diameter after rolling is the same as that of the conductive unit 2.

Step 3, manufacturing an inner side power control layer:

adopt the stranding machine with corresponding quantity conductive element 2 and buffering fire-retardant strip 3 transposition at the outside of buffer core 1 and form the electric control layer, and conductive element 2 and buffering fire-retardant strip 3 are interval arrangement.

Step 4, manufacturing an inner buffer layer 4:

and 3, extruding the butadiene rubber by using an extruder to wrap the outer side of the power control layer in the step 3 to form an inner buffer layer 4, wherein the wrapping thickness of the inner buffer layer 4 is 2 mm.

Step 5, manufacturing an outer power control layer:

adopt the stranding machine to strand corresponding quantity conductive element 2 and buffering fire-retardant strip 3 and form the electric control layer in the outside of buffer layer 4, and conductive element 2 and buffering fire-retardant strip 3 are interval arrangement.

Step 6, manufacturing an outer buffer layer 5:

and (3) extruding the butadiene rubber by using an extruder to wrap the outer side of the power control layer in the step (5) to form an outer buffer layer (5), wherein the wrapping thickness of the outer buffer layer (5) is 2 mm.

Step 7, manufacturing an outer shielding layer 6:

the shielding tape 61 with the buffer strips 62 and the lubricating tape 63 respectively adhered to the two sides is wrapped on the outer side of the outer buffer layer 5 by using a winding machine, the lubricating tape 63 is lapped on the outer side of the upper section and is positioned at one end of the buffer strips 62, and the lapping rate of the outer shielding layer 6 is 25% -30%.

Step 8, manufacturing an outer sheath 7:

polyurethane is extruded outside the outer shielding layer 6 by using an extruder to form the outer sheath 7, and the extrusion thickness of the outer sheath 7 is 3 mm.

To sum up, in the above embodiment, when the cable is twisted, the conductive units 2 are mutually extruded when being twisted, the buffering flame-retardant strips 3 circumferentially arranged at intervals with the conductive units 2 can effectively provide buffering to prevent the inner shielding layer 23 of the conductive units 2 from being damaged, after the twisting force is cancelled, the buffering flame-retardant strips 3 are elastically restored under the action of the elastic band 31 made of the pearl cotton material, after the cable is twisted for a plurality of times for a long time, the elastic band 31 made of the pearl cotton material still has good elastic restoring energy performance to provide elastic restoring force for the cable after being twisted and deformed to prevent the cable from being permanently deformed, thereby ensuring the shielding effect of the cable, meanwhile, the expanded graphite of the inner wrap of the elastic band 31 is rapidly expanded when being affected by high temperature, rapidly absorbs heat to block a fire spreading channel, thereby achieving the purpose of flame retardance, when the shielding band 61 of the spiral wrap is reduced in diameter due to the twisting of the cable, buffering strip 62 can effectively cushion being in helical state shielding area 61, reduces shielding area 61 because of the pulling force that twists reverse the receipt, and simultaneously, during shielding area 61 rotational friction, the lubricated area 63 of aluminium foil material or electrically conductive graphite material plays lubricated effect, prevents shielding area 61 direct contact friction, guarantees shielding area 61's whole shielding effect simultaneously.

As a result, the cable has the characteristics that:

1 resistance to torsion

The product is detected, the cable with the length of 1m is repeatedly twisted for 10000 times at 180 degrees, the cable is not obviously cracked and deformed, and the function is normal.

2) Flame retardant properties

The product is detected, and the integral flame retardant property of the finished cable passes the national test standard GB/T18380-2008.

3) Mechanical Properties

The mechanical properties of the cable outer sheath pass the national test standards of GB/T2951.12-2008 and GB/T2951.21-2008 after the product is detected.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention. The present invention is intended to cover by those skilled in the art various modifications and adaptations of the invention without departing from the spirit and scope of the invention. Therefore, the protection scope of the present invention is subject to the claims.

Claims (9)

1. A polyethylene insulated low-voltage multi-core shielded control cable, comprising:

the outer side of the buffer core is sequentially provided with two power control layers with opposite twisting directions;

the inner buffer layer is coated outside the power control layer at the inner side;

the outer buffer layer is coated outside the outer power control layer;

the electric control layer is formed by twisting a plurality of conductive units and buffer flame-retardant strips which are arranged at intervals;

the outer shielding layer is coated on the outer side of the outer buffer layer;

the outer sheath is coated on the outer side of the outer shielding layer;

wherein, outer shielding layer includes shielding area and the fixed buffering strip that sets up in its one side, the opposite side of shielding area is fixed to be provided with the lubrication area, the shielding area spiral is in around the package outer buffer layer outside forms outer shielding layer, the buffering strip with outer buffer layer contacts, the lubrication area is taken and is covered in the last section outside and is located buffering strip one end is taken the lid around the package formation.

2. The polyethylene insulated low-voltage multi-core shielding control cable as claimed in claim 1, wherein the conductive unit comprises a conductive wire core and an insulating layer extruded on the outer side of the conductive wire core, and an inner shielding layer for shielding electromagnetic interference is wrapped on the outer side of the insulating layer.

3. The polyethylene insulated low-voltage multi-core shielded control cable as claimed in claim 2, wherein the inner shield layer is an aluminum foil foam layer.

4. The polyethylene-insulated low-voltage multi-core shielded control cable as claimed in claim 1, wherein the buffered flame-retardant strip comprises an elastic tape for elastic buffering and a flame-retardant layer for flame-retardant located inside the elastic tape, the elastic tape and the flame-retardant layer are integrally wrapped to form the buffered flame-retardant strip, and the diameter of the buffered flame-retardant strip is the same as that of the conductive unit.

5. The polyethylene-insulated low-voltage multi-core shielded control cable as claimed in claim 4, wherein the elastic tape is a pearl wool tape.

6. The polyethylene insulated low voltage multi-core shielded control cable of claim 4, wherein the flame retardant layer is an expanded graphite layer.

7. The polyethylene insulated low voltage multi-core shielded control cable of claim 1, wherein the lubricating tape is an aluminum foil layer.

8. The polyethylene insulated low voltage multi-core shielded control cable of claim 1, wherein the lubricating tape is a conductive graphite layer.

9. The polyethylene insulated low voltage multi-core shielded control cable of claim 1, wherein the outer jacket has a thickness of 3 mm.

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