CN111682453A - Efficient auxiliary operation's electric wire netting wiring equipment - Google Patents
Efficient auxiliary operation's electric wire netting wiring equipment Download PDFInfo
- Publication number
- CN111682453A CN111682453A CN202010625970.6A CN202010625970A CN111682453A CN 111682453 A CN111682453 A CN 111682453A CN 202010625970 A CN202010625970 A CN 202010625970A CN 111682453 A CN111682453 A CN 111682453A
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- Prior art keywords
- groove
- cable
- guide shaft
- shaft
- guide
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G1/00—Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines
- H02G1/02—Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines for overhead lines or cables
- H02G1/04—Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines for overhead lines or cables for mounting or stretching
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G1/00—Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines
- H02G1/06—Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines for laying cables, e.g. laying apparatus on vehicle
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Abstract
The invention provides a high-efficiency power grid wiring device for auxiliary operation, which comprises a main body and a cable guiding and conveying assembly, wherein the main body penetrates through a wearing bracket through a belt to be wound so as to enable the main body to be carried on a constructor, the cable guiding and conveying assembly is connected with one side surface of the main body, and the cable is conveyed by the rotation of the cable guiding and conveying assembly. This kind of efficient auxiliary operation's electric wire netting wiring equipment is provided with the guide shaft, through simply twine the cable and pull the transport on the guide shaft and come it rotatory, elasticity through its one side coupling spring is simultaneously through rotatory power and rotate the promotion to it, make and also can go up the cable winding transport when need not using too much strength, make its constructor pull the cable at the eminence and carry out convenience more when laying, and can not pull the distance of overlength and unsettled lead to weight to increase and pull hard because of the cable.
Description
Technical Field
The invention relates to the technical field of electric power facility laying, in particular to a power grid wiring auxiliary device.
Background
The whole of the substation and the transmission and distribution line of various voltages in the power system is called a power grid. The system comprises three units of power transformation, power transmission and power distribution. The task of the power grid is to deliver and distribute electrical energy, changing the voltage. And the electric wire netting wiring is that to lay the cable and let the electric current can transmit and flow to the electric tower between the individual pole, and lay the above-mentioned with the cable through artifical climbing to electric tower or pole usually when the cable is laid, and often need drag its subaerial cable to lay to the top at the in-process of laying, but because the very big part of cable can be unsettled in half-air when dragging, make weight can increase when dragging the cable lead to constructor can very hard lead to the electric wire can efficiency reduction and comparatively troublesome when laying when dragging on it.
Disclosure of Invention
The invention aims to solve the technical problem that in the process of power grid wiring, constructors need to artificially pull cables from the ground, so that the weight of the cables is increased in the process of pulling and suspending the cables, and pulling is laborious.
The purpose and the effect of the high-efficiency auxiliary operation power grid wiring equipment are achieved by the following specific technical means:
the utility model provides a high-efficient auxiliary operation's electric wire netting wiring equipment, includes main part and cable guide assembly, the main part can be carried on constructor through the waistband through wearing the support and twine, its characterized in that;
the cable guiding and conveying assembly is connected to one side surface of the main body, and the rotation of the cable guiding and conveying assembly conveys the cables.
Further preferred embodiments: the cable guiding assembly comprises a cable guide component;
the guide shaft is a round shaft with a smaller diameter, which is embedded, sleeved and connected to the middle part of the cable guide assembly, and the cable is connected to the guide shaft through simple winding;
the connecting rod is a round shaft which is used for connecting the left side and the right side of one side of the left disc of the cable guide assembly with the two sides of the opposite side of the contraction shaft;
the contraction shaft is a disc which is connected with the cable guide assembly through a connecting rod and has the same diameter;
the pushing groove is a groove which is formed in the surface opening of one side of the cable guide assembly and connected with the guide shaft.
Further preferred embodiments: the guide shaft comprises;
the extrusion groove is a round shaft with a smaller diameter and formed by obliquely extending one end of the guide shaft, and the surface of the extending inclined plane of the extrusion groove is provided with a thread-shaped groove mark;
and the limiting groove is a semicircular groove with a smaller radius at one side of the other end of the guide shaft.
Further preferred embodiments: the contraction shaft comprises;
the bottom end of the expansion block is connected with a circular ring in the contraction groove in an embedded mode through a spring, and the circular ring of the expansion block is arranged on the surface of the inner wall of the middle of the contraction shaft in a protruding mode;
the board resets, reset the board and be connected in the disc of shrink axle middle part recess one side through compression spring elastic connection, and the opposite side that resets laminates with one side of extension piece mutually, and the surface around the board that resets simultaneously is provided with the groove mark of screw thread form.
Further preferred embodiments: the extension block comprises;
the rotary chute is an inclined surface which is obliquely arranged on one side of the expansion block, and groove marks which are mutually embedded with the surfaces of the extrusion groove and the reset plate are arranged on the inclined surface of the rotary chute and the top end surface of the expansion block;
the extension rod, the extension rod divide into the guide arm that four bibliographic categories divide into and carry out the concatenation connection each other for the extension block, and the both ends of extension rod all carry out gomphosis elastic connection through the both sides of spring with the extension block.
Further preferred embodiments: the pushing groove comprises;
the limiting block is embedded and elastically connected with a semicircular ring protruding from one side of the inner wall of the groove in the middle of the pushing groove, the semicircular ring protruding from the limiting block and the semicircular ring groove of the limiting groove are embedded with each other, and the two ends of the limiting block are both arranged in an inclined plane;
the elastic spring is an elastic structure with one side of the pushing groove connected with the guide shaft, and the number and the mass of elastic rings of the elastic spring are smaller than those of the compression spring.
Has the advantages that:
(1) this kind of efficient auxiliary operation's electric wire netting wiring equipment is provided with the guide shaft, through simply twine the cable and pull the transport on the guide shaft and come it rotatory, elasticity through its one side coupling spring is simultaneously through rotatory power and rotate the promotion to it, make and also can go up the cable winding transport when need not using too much strength, make its constructor pull the cable at the eminence and carry out convenience more when laying, and can not pull the distance of overlength and unsettled lead to weight to increase and pull hard because of the cable.
(2) The device is provided with the shrink axle, thereby can shrink to one side when the guide shaft is rotatory through the shrink axle and remove to produce thrust and remove, can promote simultaneously and reset it after the guide shaft removes the certain distance, lets the rotatory delivery cable that carries on that its guide shaft can relapse.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a schematic view of the overall structure of the cable routing assembly of the present invention.
FIG. 3 is a schematic view of the overall structure of the guide shaft and the pushing groove of the present invention.
Fig. 4 is a schematic view of the overall structure of the retracting shaft of the present invention.
Fig. 5 is an enlarged schematic view of the structure at a in fig. 4 according to the present invention.
FIG. 6 is a partial schematic cross-sectional view of a shrink shaft according to the present invention.
In FIGS. 1-6: the cable guide and delivery device comprises a main body 1, a wearing bracket 101, a cable guide and delivery assembly 2, a guide shaft 201, a pressing groove 2011, a limiting groove 2012, a connecting rod 202, a contraction shaft 203, an expansion block 2031, a rotating inclined groove 20311, an extension rod 20312, a reset plate 2032, a contraction groove 2033, a compression spring 2034, a pushing groove 204, a limiting block 2041 and an elastic spring 2042.
Detailed Description
As shown in figures 1 to 6:
the invention provides a high-efficiency power grid wiring device for auxiliary operation, which comprises a main body 1 and a cable guide assembly 2, wherein the main body 1 can be carried on a constructor by penetrating a belt through a wearing bracket 101 and winding the belt,
and a cable guide assembly 2, wherein the cable guide assembly 2 is connected to one side surface of the main body 1, and the rotation of the cable guide assembly 2 conveys the cable.
Wherein, the cable guiding assembly 2 comprises;
the guide shaft 201, the guide shaft 201 is a smaller diameter round shaft which is embedded, sleeved and connected to the middle part of the cable guiding and conveying assembly 2, and the cable is connected to the guide shaft 201 through simple winding; when constructor scrambles on the electric tower or the pole that need carry out the wiring through dragging its cable that twines on guide shaft 201 and extend the cable, and can drive guide shaft 201 through its friction and rotate when dragging the cable and extend from guide shaft 201, and can be more convenient pull the cable through rotatory power that produces when guide shaft 201 is rotatory.
The connecting rod 202 is a circular shaft which connects the left side and the right side of one side of the left disc of the cable guide assembly 2 with the two sides of the opposite side of the contraction shaft 203;
a contraction shaft 203, wherein the contraction shaft 203 is a disc with the same diameter and connected with the cable guide assembly 2 through a connecting rod 202;
the pushing groove 204, the pushing groove 204 is a groove for connecting the guide shaft 201 to the opening of one side surface of the cable guiding assembly 2.
Wherein, the guide shaft 201 comprises;
the extrusion groove 2011 is a round shaft with a small diameter and formed by obliquely extending one end of the guide shaft 201, and the surface of the extending inclined plane of the extrusion groove 2011 is provided with a thread-shaped groove mark; meanwhile, the other end of the guide shaft 201 is embedded in the contraction shaft 203 when the guide shaft 201 rotates, and the extrusion groove 2011 abuts against the rotation inclined groove 20311 of the expansion block 2031 on the inner wall of the contraction shaft 203 when the guide shaft 201 rotates, so that the guide shaft 201 can move through rotation when being pushed by the elasticity of the elastic spring 2042 through the groove marks of the mutual embedding of the guide shaft and the expansion block 20311, and therefore the limit block 2041 is required to limit the guide shaft 201.
The limiting groove 2012 is a semicircular groove with a smaller radius at one side of the other end of the guide shaft 201, and when the guide shaft 201 rotates, the limiting groove 2012 embedded at one end of the pushing groove 204 abuts against the inclined surface at one end of the limiting block 2041 to force the limiting block 2041 to contract, so that the guide shaft 201 loses the limitation of rotation and can rotate and move into the contracting shaft 203 through rotation.
Wherein, the contraction shaft 203 comprises;
an expansion block 2031, the bottom end of the expansion block 2031 is connected to a ring in the contraction groove 2033 by a spring in an embedded manner, and the ring of the expansion block 2031 is convexly arranged on the surface of the inner wall of the middle part of the contraction shaft 203; when the guide shaft 201 rotates into the contraction groove 2033, the inclined surface of the pressing groove 2011 and the inclined rotation groove 20311 moves to press the expansion block 2031 to contract into the contraction groove 2033 to expand the diameter of the expansion block 2033, so that the guide shaft 201 can pass through the expansion block, and the groove marks on the surfaces of the expansion block and the contraction groove 2033 are separated from each other.
The reset plate 2032, the reset plate 2032 is a disc elastically connected to one side of the groove in the middle of the shrink shaft 203 through a compression spring 2034, and the other side of the reset plate 2032 is attached to one side of the expansion block 2031, and meanwhile, the peripheral surface of the reset plate 2032 is provided with a thread-shaped groove trace, when the guide shaft 201 rotates and moves to make the expansion block 2031 shrink, the reset plate 2032 in the middle of the groove of the shrink groove 2033 loses the resisting force for limiting, so that the reset plate 2032 pushes the guide shaft 201 in the opposite direction through the compression spring 2034 on one side, because the elasticity of the compression spring 2034 is larger than that of the elastic spring 2042, the elastic spring 2042 is also pushed to compress.
Wherein, the expansion block 2031 comprises;
a rotating chute 20311, wherein the rotating chute 20311 is an inclined surface arranged obliquely at one side of the expansion block 2031, and the inclined surface of the rotating chute 20311 and the top end surface of the expansion block 2031 are both provided with groove marks which are mutually embedded with the surfaces of the extrusion groove 2011 and the reset plate 2032;
the extension rod 20312 is a guide rod formed by dividing the extension block 2031 into four parts, which are connected to each other in a splicing manner, and the two ends of the extension rod 20312 are both connected to the two sides of the extension block 2031 in an elastic manner by a spring.
Wherein, the pushing groove 204 comprises;
the limiting block 2041 is a semicircular ring which is embedded and elastically connected to one side of the inner wall of the groove in the middle of the pushing groove 204, the semicircular ring which is protruded by the limiting block 2041 is embedded with the semicircular ring groove of the limiting groove 2012, and two ends of the limiting block 2041 are both arranged in an inclined plane;
the elastic spring 2042 is an elastic structure in which one side of the pushing groove 204 is connected to the guide shaft 201, and the number and the mass of the elastic coils of the elastic spring 2042 are smaller than those of the compression spring 2034.
The working principle is as follows:
the specific use mode and action of the embodiment are that firstly the belt is wound on the wearing bracket 101 in a penetrating manner, then the belt is worn on a constructor to carry the main body 1 on the constructor, then the cable to be laid is simply wound on the guide shaft 201 to be carried on an electric tower or an electric pole to be laid, when the constructor climbs on the electric tower or the electric pole to be laid, the cable is extended by pulling the cable wound on the guide shaft 201, when the cable is pulled to extend from the guide shaft 201, the guide shaft 201 is driven to rotate by friction of the cable, when the guide shaft 201 rotates, the cable can be pulled more conveniently by power generated by rotation, and when the guide shaft 201 rotates, the limiting groove 2012 embedded at one end of the pushing groove 204 abuts against an inclined plane at one end of the limiting block 2041 to force the limiting block 2041 to contract, the guide shaft 201 can lose the limitation of rotation, and can rotate to the contraction shaft 203, and the elastic spring 2042 connected with the guide shaft 201 in the pushing groove 204 can also extend to elastically push the guide shaft 201 to rotate to one side, so that the guide shaft 201 can rotate by itself to wind and guide the cable to the main body 1 through the elasticity of the elastic spring 2042, and the constructor can pull the cable to arrange more easily, and meanwhile, the guide shaft 201 can rotate because the other end is embedded in the contraction shaft 203, the pressing groove 2011 of the guide shaft 201 can abut against the rotation chute 20311 of the expansion block 2031 on the inner wall of the contraction shaft 203, and the guide shaft 201 can move by rotating when being elastically pushed by the elastic spring 2042 through the groove marks which are embedded with each other, so that the limitation block 2041 is needed to limit the guide shaft 201, when the guide shaft 201 rotates to move to the contracting groove 2033, the inclined surface movement of the pressing groove 2011 and the rotating inclined groove 20311 against each other forces the expanding block 2031 to contract to expand the diameter of the contracting groove 2033, and the groove marks on the surfaces of the expanding block 2031 and the contracting groove 2033 are separated from each other, while the expanding block 2031 expands by extending the extending rod 20312 during extrusion, and finally, when the guide shaft 201 rotates to contract the expanding block 2031, the reset plate 2032 on the middle side of the contracting groove 2033 loses the limiting resisting force, so that the reset plate 2032 pushes the guide shaft 201 in the opposite direction by the compression spring 2034 on one side, because the compression spring 2034 is larger than the elastic spring 2042, the elastic spring 2042 is pushed to compress, and because the contraction of the expanding block 2031 is separated from the pressing groove 2011, the guide shaft 201 is not rotated during the resetting, then the limiting block 2041 is re-embedded into the limiting groove 2012 to limit the guide shaft 201, so that the cable is pulled, the labor is saved, and the electric network is more efficiently and conveniently arranged, then after the guide shaft 201 is reset, the expanding block 2031 is contracted and reset due to the elasticity of the extending rod 20312, the reset plate 2032 is moved backwards due to the inertia generated by the compression spring 2034 after being ejected, and the peripheral edge of the reset plate 2032 is provided with a ring embedded with the groove mark on the surface of the expanding block 2031, so that the reset plate 2032 is reset through the groove mark ring at noon, and the reset plate 2032 is limited on one side of the expanding block 2031 again.
Claims (6)
1. A high-efficiency auxiliary operation power grid wiring device comprises a main body (1) and a cable guide assembly (2), wherein the main body (1) can be carried on a constructor by penetrating a belt through a wearing bracket (101) and winding the belt;
the cable guiding and conveying assembly (2) is connected to one side surface of the main body (1), and the rotation of the cable guiding and conveying assembly (2) conveys the cables.
2. The high efficiency, ancillary operations grid wiring device of claim 1 wherein: the cable guiding assembly (2) comprises a cable guide component;
the guide shaft (201), the said guide shaft (201) is the minor diameter round axle that the jogged bell and spigot joint connects to the middle part in the assembly (2) of leading and sending of the cable, and the cable connects on the guide shaft (201) through simple winding;
the connecting rod (202) is a circular shaft which is used for connecting the left side and the right side of one side of a left disc of the cable guide assembly (2) with the two sides of the opposite side of the contraction shaft (203);
the contraction shaft (203) is a disc which is connected with the cable guide assembly (2) through a connecting rod (202) and has the same diameter, and the contraction shaft (203) is a disc;
the pushing groove (204) is a groove which is formed in the surface opening of one side of the cable guiding assembly (2) and connected with the guide shaft (201).
3. The high efficiency, ancillary operations grid wiring device of claim 2 wherein: the guide shaft (201) comprises;
the extruding groove (2011) is a round shaft with a small diameter and is formed by obliquely extending one end of the guide shaft (201), and a thread-shaped groove mark is formed on the surface of an extending inclined plane of the extruding groove (2011);
and the limiting groove (2012) is a semicircular groove with a smaller radius at one side of the other end of the guide shaft (201).
4. The high efficiency, ancillary operations grid wiring device of claim 2 wherein: the contraction shaft (203) comprises;
the bottom end of the expansion block (2031) is connected to a ring in the contraction groove (2033) in a spring embedding manner, and the ring of the expansion block (2031) is convexly arranged on the surface of the inner wall of the middle part of the contraction shaft (203);
reset plate (2032), reset plate (2032) is through compression spring (2034) elastic connection in the disc of shrink axle (203) middle part recess one side, and resets the opposite side of plate (2032) and the laminating of one side of expansion piece (2031) mutually, and the surface all around of resetting plate (2032) simultaneously is provided with the groove mark of screw thread form.
5. The high efficiency, ancillary operations grid wiring device as defined in claim 4 wherein: the expansion block (2031) comprises;
the rotary inclined groove (20311) is an inclined surface which is arranged on one side of the expansion block (2031) in an inclined manner, and groove marks which are mutually embedded with the surfaces of the extrusion groove (2011) and the reset plate (2032) are arranged on the inclined surface of the rotary inclined groove (20311) and the top end surface of the expansion block (2031);
extension rod (20312), extension rod (20312) divide into four bibliographic categories for extension piece (2031) and carry out the guide arm that the concatenation is connected each other, and the both ends of extension rod (20312) all carry out gomphosis elastic connection through the spring with the both sides of extension piece (2031).
6. The high efficiency, ancillary operations grid wiring device of claim 2 wherein: the pushing groove (204) comprises;
the limiting block (2041) is embedded and elastically connected with a semicircular ring protruding from one side of the inner wall of the groove in the middle of the pushing groove (204), the semicircular ring protruding from the limiting block (2041) is embedded with the semicircular ring groove of the limiting groove (2012), and two ends of the limiting block (2041) are arranged in an inclined plane;
the elastic spring (2042) is an elastic structure that one side of the groove of the pushing groove (204) is connected with the guide shaft (201), and the number and the mass of the elastic rings of the elastic spring (2042) are smaller than those of the compression spring (2034).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010625970.6A CN111682453B (en) | 2020-07-01 | 2020-07-01 | Efficient auxiliary operation's electric wire netting wiring equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202010625970.6A CN111682453B (en) | 2020-07-01 | 2020-07-01 | Efficient auxiliary operation's electric wire netting wiring equipment |
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| Publication Number | Publication Date |
|---|---|
| CN111682453A true CN111682453A (en) | 2020-09-18 |
| CN111682453B CN111682453B (en) | 2022-11-29 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202010625970.6A Active CN111682453B (en) | 2020-07-01 | 2020-07-01 | Efficient auxiliary operation's electric wire netting wiring equipment |
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| Country | Link |
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| CN (1) | CN111682453B (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112820496A (en) * | 2021-01-05 | 2021-05-18 | 郑飞 | Transformer power cord seal protection subassembly |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN112820496A (en) * | 2021-01-05 | 2021-05-18 | 郑飞 | Transformer power cord seal protection subassembly |
Also Published As
| Publication number | Publication date |
|---|---|
| CN111682453B (en) | 2022-11-29 |
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