CN209402071U - A kind of transmission line of electricity cabling special gloves - Google Patents
A kind of transmission line of electricity cabling special gloves Download PDFInfo
- Publication number
- CN209402071U CN209402071U CN201920132925.XU CN201920132925U CN209402071U CN 209402071 U CN209402071 U CN 209402071U CN 201920132925 U CN201920132925 U CN 201920132925U CN 209402071 U CN209402071 U CN 209402071U
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- Prior art keywords
- wear
- resistant block
- transmission line
- glove bulk
- block
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- 230000005540 biological transmission Effects 0.000 title claims abstract description 84
- 230000005611 electricity Effects 0.000 title claims abstract description 47
- 229920001971 elastomer Polymers 0.000 claims abstract description 68
- 239000004816 latex Substances 0.000 claims abstract description 64
- 229920000126 latex Polymers 0.000 claims abstract description 64
- 239000000463 material Substances 0.000 claims description 57
- 229920000742 Cotton Polymers 0.000 claims description 12
- 229920000728 polyester Polymers 0.000 claims description 10
- 239000004743 Polypropylene Substances 0.000 claims description 9
- 239000004745 nonwoven fabric Substances 0.000 claims description 9
- -1 polypropylene Polymers 0.000 claims description 9
- 229920001155 polypropylene Polymers 0.000 claims description 9
- 229920000915 polyvinyl chloride Polymers 0.000 claims description 9
- 239000004800 polyvinyl chloride Substances 0.000 claims description 9
- 238000010276 construction Methods 0.000 abstract description 3
- 239000000839 emulsion Substances 0.000 description 42
- 210000003811 finger Anatomy 0.000 description 32
- KVBYPTUGEKVEIJ-UHFFFAOYSA-N benzene-1,3-diol;formaldehyde Chemical compound O=C.OC1=CC=CC(O)=C1 KVBYPTUGEKVEIJ-UHFFFAOYSA-N 0.000 description 28
- 239000011347 resin Substances 0.000 description 28
- 229920005989 resin Polymers 0.000 description 28
- 239000003292 glue Substances 0.000 description 22
- 238000005470 impregnation Methods 0.000 description 20
- 230000009471 action Effects 0.000 description 16
- 230000008859 change Effects 0.000 description 15
- 230000005489 elastic deformation Effects 0.000 description 15
- 238000000034 method Methods 0.000 description 15
- 206010013786 Dry skin Diseases 0.000 description 14
- 239000004831 Hot glue Substances 0.000 description 14
- 238000007598 dipping method Methods 0.000 description 14
- 238000001035 drying Methods 0.000 description 14
- 238000002156 mixing Methods 0.000 description 14
- 238000002360 preparation method Methods 0.000 description 14
- 230000008569 process Effects 0.000 description 14
- 230000006872 improvement Effects 0.000 description 11
- 238000002386 leaching Methods 0.000 description 8
- 210000004247 hand Anatomy 0.000 description 4
- 238000005452 bending Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 230000035699 permeability Effects 0.000 description 2
- 210000003813 thumb Anatomy 0.000 description 2
- 230000007547 defect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000001681 protective effect Effects 0.000 description 1
Landscapes
- Gloves (AREA)
Abstract
The utility model discloses a kind of transmission line of electricity cabling special gloves, for transmission line construction and check and accept cabling, including glove bulk, rubber shoe latex layer is provided on the centre of the palm of glove bulk and pad of finger, bonding is provided with the flexible wear block of arc on the rubber shoe latex layer at centre of the palm position, wear-resistant block is open outwardly, and the arc-shaped side at the both ends of wear-resistant block axis direction upsweeps.The utility model can increase wearability, prolong the service life, and have the advantages that structure is simple, frictional force is small, comfortable ventilating, reduce cost.
Description
Technical field
The utility model relates to a kind of transmission line operation gloves, especially a kind of transmission line of electricity cabling special gloves,
For transmission line construction and check and accept cabling.
Background technique
500 kilovolts and above transmission line construction and the course of receiving need artificial cabling, i.e. high altitude operation people
Member walks about along the conducting wire set up, usually steps on the conducting wire of lower part, while hand steered the conducting wire advance on top, constructs
Operation checks that conducting wire and fitting whether there is mass defect.During cabling, high altitude operation personnel need wearing gloves to prevent
Hand is galled or scratched by burr by conducting wire.
Cabling working condition requirement high altitude operation personnel both hands must tightly hold conducting wire and walk forward, and this requires worn hands
Set has both the features such as frictional force is small, wear-resistant.And mainly there are cotton string gloves and rubber gloves currently on the market.Wherein, cotton thread hand
Set is the most common gloves of cabling, however is worn no resistance, and usual by-pass gloves can only be checked and accepted with one grade of conducting wire, and multi gear conducting wire connects
Continuous cabling needs replace gloves several times;Frictional force is big between rubber gloves and conducting wire, is unable to satisfy cabling working condition requirement, and thoroughly
Gas is poor, and comfort level is lower.
Utility model content
The technical problem to be solved by the present invention is to provide a kind of transmission line of electricity cabling special gloves, can increase wear-resisting
Property, prolong the service life, has the advantages that structure is simple, frictional force is small, comfortable ventilating, reduces cost.
The technical scheme adopted by the utility model is
A kind of transmission line of electricity cabling special gloves, including glove bulk are arranged on the centre of the palm of glove bulk and pad of finger
There is rubber shoe latex layer, bonding is provided with the flexible wear block of arc on the rubber shoe latex layer at centre of the palm position, and wear-resistant block is open outwardly, wear-resistant block axis
The arc-shaped side at the both ends in line direction upsweeps.
Technical solutions of the utility model further improvement lies in that: the material of glove bulk be cotton.
Technical solutions of the utility model further improvement lies in that: the material of glove bulk be linen.
Technical solutions of the utility model further improvement lies in that: the material of glove bulk be non-woven fabrics.
Technical solutions of the utility model further improvement lies in that: the range of curvature radius of wear-resistant block be 2.5 ~ 5cm.
Technical solutions of the utility model further improvement lies in that: the range of curvature radius of wear-resistant block be 3 ~ 4cm.
Technical solutions of the utility model further improvement lies in that: the axis direction of wear-resistant block and the width side of glove bulk
To consistent.
Technical solutions of the utility model further improvement lies in that: the axis direction length of wear-resistant block is greater than glove bulk
Width.
Technical solutions of the utility model further improvement lies in that: wear-resistant block is with a thickness of 1 ~ 3mm.
Technical solutions of the utility model further improvement lies in that: the material of wear-resistant block be polyvinyl chloride.
Technical solutions of the utility model further improvement lies in that: the material of wear-resistant block be polypropylene.
Technical solutions of the utility model further improvement lies in that: the material of wear-resistant block be polyester.
By adopting the above-described technical solution, the technological progress that the utility model obtains is:
A kind of transmission line of electricity cabling special gloves provided by the utility model, can increase wearability, prolong the service life,
Have the advantages that structure is simple, frictional force is small, comfortable ventilating, reduce cost.
Wear-resistant block is designed camber by the utility model, when range of curvature radius is 2.5 ~ 5cm, especially radius of curvature model
When enclosing for 3 ~ 4cm, under the action of grip, certain elastic deformation can occur for wear-resistant block, and radius of curvature can change,
Palm bending degree when bending degree holds power transmission line with people fits like a glove, and facilitates grasping power transmission line.
The arc-shaped side at the both ends of wear-resistant block axis direction is designed as upsweeping by the utility model, while the axis of wear-resistant block
Line direction is consistent with the width direction of glove bulk, and the width of wear-resistant block is greater than the width at glove bulk centre of the palm position, wear-resistant block
Two sides arc-shaped side upsweeps, and centre of the palm position two sides are wrapped in wear-resistant block, prevent during cabling centre of the palm position and its
Two sides are worn, and reduce gloves loss, extend gloves service life, reduce cabling cost.
The material that the wear-resistant block of the utility model uses for polyvinyl chloride, polypropylene or polyester, polyvinyl chloride, polypropylene or
Polyester has the characteristics that wear-resistant, high-intensitive, frictional force is small, and compared with cotton string gloves, wearability is more preferable, with rubber gloves phase
Than gas permeability and comfort are more preferable, and frictional force is smaller than rubber gloves.The wear-resisting stock material of the application can increase the resistance to of gloves
Mill property, and can be reduced frictional force, while have both ventilative, comfortable, can satisfy cabling working condition requirement.
The utility model wear-resistant block is with a thickness of 1 ~ 3mm, can will be resistance to so that wear-resistant block has certain toughness and plasticity
Abrading block fashions into the bending degree that palm radian when holding power transmission line with people matches, and wear-resistant block is too thick, then is not easy to fashion into institute
Arc is needed, it is inconvenient to grasp;Wear-resistant block is too thin, then arc is not easy to keep stablizing, and wear-resistant block is prone to wear, and service life is short.
The material of the utility model glove bulk is cotton, linen or non-woven fabrics, can keep the gas permeability of gloves, make
Used time comfortable feel, and rubber shoe latex layer is provided on the centre of the palm and pad of finger contacted with power transmission line, the resistance to of gloves can be increased
Mill property, not only can satisfy the requirement of comfortable ventilating, but also can increase the wearability of gloves, and had extended the service life of gloves.
Detailed description of the invention
Fig. 1 is the schematic diagram of the utility model;
Fig. 2 is the schematic diagram of wear-resistant block;
Wherein, 1, glove bulk, 2, rubber shoe latex layer, 3, wear-resistant block.
Specific embodiment
Here is some specific embodiments of the utility model, to be described in further detail to the utility model.
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps to form protective edge, wear-resisting so as to be wrapped in centre of the palm position two sides
In block, centre of the palm position and its two sides during cabling is prevented to be worn.Since wear-resistant block is arc, glove bulk and wear-resistant block
Gloves also camber after bonding.In use, wear-resistant block is directly contacted with conducting wire, gloves sheet will not be damaged conducting wire is jagged
Body 1, while wear-resistant block improves gloves for the protection effect of staff's hand.The specific structure of the special gloves is such as schemed
1, shown in Fig. 2.
The material of glove bulk 1 is any one of cotton, linen or non-woven fabrics.Preferentially use cotton gloves as hand
Cover ontology 1.
The range of curvature radius of wear-resistant block 3 is 2.5 ~ 5cm, it is preferable that range of curvature radius is 3 ~ 4cm, and wear-resistant block has
Certain elastic deformation can occur under the action of grip for certain elasticity, when the power transmission line for different thicknesses of being in one's hands, be in one's hands
The radius of wear-resistant block can change under the action of power, and the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, at the thumb of glove bulk and remaining
The two sides on the arc top of wear-resistant block 3 are located at four fingers, in use, staff wears the gloves, thumb and remaining four finger
The state that annular is held can be formed to transmission pressure.In specific implement, the axis direction length of wear-resistant block 3 is greater than gloves
The width of ontology 1.Wear-resistant block 3 is with a thickness of 1 ~ 3mm.
The material of wear-resistant block 3 is polyvinyl chloride, polypropylene or polyester.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1 ~ 2:1, and impregnation temperature is 170 ~ 190
DEG C, the impregnation time is 60 ~ 120s, and 80 ~ 120 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 1
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is cotton.
The radius of curvature of wear-resistant block 3 is 2.5cm, and certain elastic deformation can occur under the action of grip for wear-resistant block,
When holding power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 1mm.
The material of wear-resistant block 3 is polyvinyl chloride.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1:1, and impregnation temperature is 170 DEG C, impregnation
Time is 60s, and 80 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 2
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is linen.
The radius of curvature of wear-resistant block 3 is 5cm, and certain elastic deformation can occur under the action of grip, hold for wear-resistant block
Firmly when power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.It is resistance to
The axis direction of abrading block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 3mm.
The material of wear-resistant block 3 is polypropylene.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 2:1, and impregnation temperature is 190 DEG C, impregnation
Time is 120s, and 120 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 3
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is non-woven fabrics.
The radius of curvature of wear-resistant block 3 is 4cm, and certain elastic deformation can occur under the action of grip, hold for wear-resistant block
Firmly when power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.It is resistance to
The axis direction of abrading block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 2mm.
The material of wear-resistant block 3 is polyester.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1.5:1, and impregnation temperature is 180 DEG C, leaching
The glue time is 80s, and 100 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 4
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is cotton.
The radius of curvature of wear-resistant block 3 is 3cm, and certain elastic deformation can occur under the action of grip, hold for wear-resistant block
Firmly when power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.It is resistance to
The axis direction of abrading block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 1mm.
The material of wear-resistant block 3 is polyvinyl chloride.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1:1, and impregnation temperature is 175 DEG C, impregnation
Time is 70s, and 90 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 5
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is linen.
The radius of curvature of wear-resistant block 3 is 3.5cm, and certain elastic deformation can occur under the action of grip for wear-resistant block,
When holding power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 3mm.
The material of wear-resistant block 3 is polypropylene.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 2:1, and impregnation temperature is 185 DEG C, impregnation
Time is 90s, and 110 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 6
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is non-woven fabrics.
The radius of curvature of wear-resistant block 3 is 4.5cm, and certain elastic deformation can occur under the action of grip for wear-resistant block,
When holding power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 2mm.
The material of wear-resistant block 3 is polyester.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1.5:1, and impregnation temperature is 180 DEG C, leaching
The glue time is 100s, and 95 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 7
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is cotton.
The radius of curvature of wear-resistant block 3 is 2.5cm, and certain elastic deformation can occur under the action of grip for wear-resistant block,
When holding power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 2mm.
The material of wear-resistant block 3 is polyvinyl chloride.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1.5:1, and impregnation temperature is 170 DEG C, leaching
The glue time is 60s, and 80 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 8
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is linen.
The radius of curvature of wear-resistant block 3 is 5cm, and certain elastic deformation can occur under the action of grip, hold for wear-resistant block
Firmly when power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.It is resistance to
The axis direction of abrading block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 2.5mm.
The material of wear-resistant block 3 is polypropylene.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 2:1, and impregnation temperature is 190 DEG C, impregnation
Time is 110s, and 110 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 9
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is non-woven fabrics.
The radius of curvature of wear-resistant block 3 is 3.5cm, and certain elastic deformation can occur under the action of grip for wear-resistant block,
When holding power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 1.5mm.
The material of wear-resistant block 3 is polyester.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1.8:1, and impregnation temperature is 190 DEG C, leaching
The glue time is 90s, and 100 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 10
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is cotton.
The radius of curvature of wear-resistant block 3 is 3.8cm, and certain elastic deformation can occur under the action of grip for wear-resistant block,
When holding power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 1.6mm.
The material of wear-resistant block 3 is polyester.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1.2:1, and impregnation temperature is 185 DEG C, leaching
The glue time is 100s, and 110 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 11
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is non-woven fabrics.
The radius of curvature of wear-resistant block 3 is 3.2cm, and certain elastic deformation can occur under the action of grip for wear-resistant block,
When holding power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 1.2mm.
The material of wear-resistant block 3 is polyvinyl chloride.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1.4:1, and impregnation temperature is 175 DEG C, leaching
The glue time is 90s, and 95 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 12
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is linen.
The radius of curvature of wear-resistant block 3 is 4.2cm, and certain elastic deformation can occur under the action of grip for wear-resistant block,
When holding power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 2.4mm.
The material of wear-resistant block 3 is polypropylene.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1.3:1, and impregnation temperature is 175 DEG C, leaching
The glue time is 110s, and 105 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Embodiment 13
A kind of transmission line of electricity cabling special gloves, including glove bulk 1 are set on the centre of the palm of glove bulk 1 and pad of finger
It is equipped with rubber shoe latex layer 2, bonding is provided with the flexible wear block 3 of arc on the rubber shoe latex layer 2 at centre of the palm position, and wear-resistant block 3 is open outwardly, resistance to
The arc-shaped side at the both ends of 3 axis direction of abrading block upsweeps.
The material of glove bulk 1 is non-woven fabrics.
The radius of curvature of wear-resistant block 3 is 2.8cm, and certain elastic deformation can occur under the action of grip for wear-resistant block,
When holding power transmission line, certain change occurs for radius of curvature, so that the radian of wear-resistant block and the radian of power transmission line fit like a glove.
The axis direction of wear-resistant block 3 is consistent with the width direction of glove bulk 1, and the axis direction length of wear-resistant block 3 is greater than glove bulk 1
Width, wear-resistant block is with a thickness of 2.6mm.
The material of wear-resistant block 3 is polyester.
Preparation method the following steps are included:
A. the centre of the palm of glove bulk and pad of finger are subjected to dipping process, glue is natural emulsion and resorcinol formaldehyde
The mass ratio of the aqueous emulsion of resin mixing, natural emulsion and resorcinol formaldehyde resin is 1.6:1, and impregnation temperature is 185 DEG C, leaching
The glue time is 90s, and 85 DEG C of dryings obtain rubber shoe latex layer;
B. wear-resisting block of material is melted, injects in wear-resistant block mold, is prepared into wear-resistant block;
C. wear-resistant block is bonded on the rubber shoe latex layer at centre of the palm position of glove bulk with hot melt adhesive, obtains transmission line of electricity and walks
Line special gloves.
Claims (12)
1. a kind of transmission line of electricity cabling special gloves, including glove bulk (1), it is characterised in that: the centre of the palm of glove bulk (1) and
It being provided on pad of finger rubber shoe latex layer (2), bonding is provided with the flexible wear block (3) of arc on the rubber shoe latex layer (2) at centre of the palm position,
Wear-resistant block (3) is open outwardly, and the arc-shaped side at the both ends of wear-resistant block (3) axis direction upsweeps.
2. a kind of transmission line of electricity cabling special gloves according to claim 1, it is characterised in that: the material of glove bulk (1)
Matter is cotton.
3. a kind of transmission line of electricity cabling special gloves according to claim 1, it is characterised in that: the material of glove bulk (1)
Matter is linen.
4. a kind of transmission line of electricity cabling special gloves according to claim 1, it is characterised in that: the material of glove bulk (1)
Matter is non-woven fabrics.
5. a kind of transmission line of electricity cabling special gloves according to claim 1, it is characterised in that: the curvature of wear-resistant block (3)
Radius is 2.5 ~ 5cm.
6. a kind of transmission line of electricity cabling special gloves according to claim 5, it is characterised in that: the curvature of wear-resistant block (3)
Radius is 3 ~ 4cm.
7. a kind of transmission line of electricity cabling special gloves according to claim 1, it is characterised in that: the axis of wear-resistant block (3)
Direction is consistent with the width direction of glove bulk (1).
8. a kind of transmission line of electricity cabling special gloves according to claim 7, it is characterised in that: the axis of wear-resistant block (3)
Direction length is greater than the width of glove bulk (1).
9. a kind of transmission line of electricity cabling special gloves according to claim 1, it is characterised in that: wear-resistant block (3) is with a thickness of 1
~3mm。
10. a kind of transmission line of electricity cabling special gloves according to claim 1, it is characterised in that: the material of wear-resistant block (3)
For polyvinyl chloride.
11. a kind of transmission line of electricity cabling special gloves according to claim 1, it is characterised in that: the material of wear-resistant block (3)
For polypropylene.
12. a kind of transmission line of electricity cabling special gloves according to claim 1, it is characterised in that: the material of wear-resistant block (3)
For polyester.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920132925.XU CN209402071U (en) | 2019-01-25 | 2019-01-25 | A kind of transmission line of electricity cabling special gloves |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920132925.XU CN209402071U (en) | 2019-01-25 | 2019-01-25 | A kind of transmission line of electricity cabling special gloves |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN209402071U true CN209402071U (en) | 2019-09-17 |
Family
ID=67899025
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| Country | Link |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113851997A (en) * | 2021-08-23 | 2021-12-28 | 广西电网有限责任公司柳州供电局 | Transmission line engineering walks and checks protector |
-
2019
- 2019-01-25 CN CN201920132925.XU patent/CN209402071U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN113851997A (en) * | 2021-08-23 | 2021-12-28 | 广西电网有限责任公司柳州供电局 | Transmission line engineering walks and checks protector |
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