CN218647662U - Solar lithium battery energy storage connection installation line - Google Patents

Abstract

The utility model relates to a solar lithium battery energy storage connection installation wire, wherein a connecting wire component consists of a conductor and an insulating layer, and the insulating layer is wrapped outside the conductor; the outer portion of the insulating layer is fixedly wrapped with polycarbonate, the outer portion of the polycarbonate is fixedly wrapped with a reinforcing net sleeve, and the outer portion of the reinforcing net sleeve is fixedly wrapped with a polyvinyl chloride sheath. The utility model discloses beneficial effect: the solar lithium battery energy storage connection mounting wire is wear-resistant, weak acid-resistant, weak base-resistant, neutral oil-resistant, not easy to damage and expose electricity, and long in service life.

Description

Solar lithium battery energy storage connection installation line

Technical Field

The utility model relates to a connect the mounting wire, especially relate to a solar energy lithium electricity energy storage connection mounting wire.

Background

Solar energy, generally referred to as the radiant energy of sunlight, is commonly used in modern times for power generation; living things formed from the earth live mainly with heat and light provided by the sun, and ancient mankind also understand that the sun dries objects and serves as a method for preserving food, such as salt making, salted fish drying and the like; however, with the reduction of fossil fuels, solar energy is intentionally developed further, and with the development of the technology, people invent a technology of converting light into electric energy and further invent an energy storage technology of a solar lithium battery.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a solar energy lithium electricity energy storage connection mounting wire, it is ordinary electric wire to have solved current wire of being connected with solar energy lithium electricity energy storage battery, comprises the outside parcel rubber of sinle silk, and the outside rubber of ordinary wire is not wear-resisting, just can break the outside rubber skin of wire under the wearing and tearing of less power, and the mouse also tears the outside rubber skin of wire easily, causes the problem that the wire exposes electricity.

The utility model discloses a solve the technical scheme that the problem that the aforesaid was proposed adopted and be:

a solar lithium battery energy storage connection mounting line comprises a connecting line component 1, wherein the connecting line component 1 is composed of a conductor 101 and an insulating layer 102, and the insulating layer 102 wraps the outside of the conductor 101;

the insulating layer 102 is fixedly wrapped with the polycarbonate 2, the polycarbonate 2 is fixedly wrapped with the reinforcing mesh 3, and the polyvinyl chloride sheath 4 is fixedly wrapped with the reinforcing mesh 3.

The conductor 101 is a pure copper conductor, and the copper conductor 101 has high performance-price ratio and high conductive effect.

The insulating layer 102 is a cross-linked polyethylene insulating layer, and the insulating layer 102 has good strength and temperature resistance, particularly high creep strength, and the strength of the insulating layer does not change remarkably with the use time.

The reinforcing net sleeve 3 is a carbon wire woven net sleeve, and the reinforcing net sleeve 3 is relatively wear-resistant and is not easy to curl.

The front part of the polyvinyl chloride sheath 4 is respectively provided with a left fixing component 5 and a right fixing component 6 in a matching manner, the left fixing component 5 comprises a left arc-shaped piece 501, a semicircular cavity A502, a bottom plate A503, a fixing through hole A504, a vertical plate A505 and a threaded through hole A506, the right part of the left arc-shaped piece 501 is provided with the semicircular cavity A502, the lower surface of the left arc-shaped piece 501 is fixedly provided with the bottom plate A503, the left part of the bottom plate A503 is provided with the fixing through hole A504, the upper surface of the left arc-shaped piece 501 is fixedly provided with the vertical plate A505, and the front part and the rear part of the vertical plate A505 are respectively provided with the threaded through hole A506;

the right fixing component 6 comprises a right arc-shaped part 601, a semicircular cavity B602, a bottom plate B603, a fixing through hole B604, a vertical plate B605 and a threaded through hole B606, wherein the semicircular cavity B602 is arranged at the left part of the right arc-shaped part 601, the bottom plate B603 is fixedly arranged on the lower surface of the right arc-shaped part 601, the fixing through hole B604 is formed at the right part of the bottom plate B603, the vertical plate B605 is fixedly arranged on the upper surface of the right arc-shaped part 601, and the threaded through holes B606 are respectively formed at the front part and the rear part of the vertical plate B605;

the polyvinyl chloride sheath is characterized in that a semicircular cavity A502 formed in the left arc-shaped piece 501 is buckled on the left side of the front portion of the polyvinyl chloride sheath 4, a semicircular cavity B602 formed in the right arc-shaped piece 601 is buckled on the right side of the front portion of the polyvinyl chloride sheath 4, the threaded through hole A506 formed in the vertical plate A505 and the threaded through hole B606 formed in the vertical plate B605 are arranged in a one-to-one correspondence mode, and bolts 7 are screwed between the threaded through hole A506 and the threaded through hole B606 correspondingly, so that the end portion of the polyvinyl chloride sheath 4 can be fixed at a required position conveniently through the left fixing component 5, the right fixing component 6 and the bolts 7.

The lateral wall of the semicircular cavity A502 side on the left arc-shaped piece 501 on the equipartition set up a plurality of anti-skidding granule A507, the equipartition sets up a plurality of anti-skidding granule B607 on the lateral wall of the semicircular cavity B602 side on the right arc-shaped piece 601, be convenient for press from both sides tight polyvinyl chloride sheath 4 through anti-skidding granule A507, anti-skidding granule B607, prevent that left arc-shaped piece 501, right arc-shaped piece 601 from sliding along polyvinyl chloride sheath 4.

The utility model discloses a theory of operation: the conductor is a pure copper conductor, and the copper conductor has high cost performance and high conductive effect;

the insulating layer wraps the outside of the conductor, is a crosslinked polyethylene insulating layer, and has good strength and temperature resistance, particularly high creep strength, and the strength of the insulating layer does not change remarkably along with the use time;

polycarbonate is fixedly wrapped outside the insulating layer, is colorless and transparent, and has heat resistance, weak acid resistance, weak alkali resistance, neutral oil resistance, impact resistance and flame retardant BI grades, so that the insulating layer can be better protected, and the probability of corrosion and damage of the insulating layer is reduced;

the reinforcing net sleeve is fixedly wrapped outside the polycarbonate and is a carbon wire woven net sleeve, so that the reinforcing net sleeve is relatively wear-resistant and is not easy to curl, the polycarbonate is prevented from being quickly worn by the reinforcing net sleeve, and the service life of the polycarbonate is prolonged by the reinforcing net sleeve;

the polyvinyl chloride sheath is fixedly wrapped outside the reinforcing mesh sleeve, so that the reinforcing mesh sleeve is protected by the polyvinyl chloride sheath, the reinforcing mesh sleeve is directly abraded by the polyvinyl chloride sheath, and the service life of the conductor is prolonged by the polycarbonate, the reinforcing mesh sleeve and the polyvinyl chloride sheath;

through the connecting wire subassembly, polycarbonate, strengthen the net cover, the polyvinyl chloride sheath produces solar energy lithium electricity energy storage connection mounting line, the solar energy lithium electricity energy storage connection mounting line of certain length of intercepting, cut off the polyvinyl chloride sheath of suitable length tip respectively at two tip of solar energy lithium electricity energy storage connection mounting line, strengthen the net cover, polycarbonate, the insulating layer, place left fixed subassembly respectively at the polyvinyl chloride sheath front portion on this solar energy lithium electricity energy storage connection mounting line, right side fixed subassembly, the semicircular cavity A side of the left arc spare on the left fixed subassembly is located the anterior left appropriate position of polyvinyl chloride sheath, the semicircular cavity B side of the right arc spare on the right fixed subassembly is located the anterior right appropriate position on polyvinyl chloride sheath, left side arc spare, right side arc spare lock is on the polyvinyl chloride sheath, get two bolts respectively with the screw through-hole B on the adjacent riser B and the screw through-hole A spiro union on the riser A, the antiskid granule B that sets up on the antiskid granule A that sets up on the left arc spare and the right arc spare pricks into polyvinyl chloride sheath respectively, through antiskid granule A through-hole A, prevent left fixed subassembly left side fixed subassembly from fixing assembly along the screw sheath B and the screw sheath B, the other end sets up the antiskid granule B and the right side fixed subassembly and the preceding cooperation of the electric property through-hole on the electric bottom plate of the electric connection base plate of the electric component of the electric connection of the polyvinyl chloride, the electric base plate of the electric connection of the fixed subassembly of the electric property of the electric bottom plate.

The beneficial effects of the utility model reside in that: 1. the solar lithium battery energy storage connection mounting line is wear-resistant, weak acid-resistant, weak base-resistant, neutral oil-resistant, not easy to damage and expose electricity, and has long service life. 2. The conductor is a pure copper conductor, and the copper conductor has high performance-price ratio and high conductive effect. 3. The insulating layer is a crosslinked polyethylene insulating layer, the strength and the temperature resistance of the insulating layer are good, particularly the creep strength is high, and the change of the strength along with the service time is not obvious. 4. The reinforcing net cover is a carbon wire woven net cover, so that the reinforcing net cover is relatively wear-resistant and is not easy to curl. 5. The end part of the polyvinyl chloride sheath is conveniently fixed at a required position through the left fixing component, the right fixing component and the bolt. 6. The lateral wall of the semicircular cavity A side on the left arc-shaped part is evenly distributed with a plurality of anti-slip particles A, the lateral wall of the semicircular cavity B side on the right arc-shaped part is evenly distributed with a plurality of anti-slip particles B, so that the anti-slip particles A and the anti-slip particles B can clamp the polyvinyl chloride sheath tightly, and the left arc-shaped part and the right arc-shaped part are prevented from sliding along the polyvinyl chloride sheath.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of the utility model showing the matching of the connecting wire assembly, the left fixing assembly, the right fixing assembly and the bolt;

FIG. 3 is a schematic structural view of the left fixing component, the right fixing component and the bolt of the present invention;

FIG. 4 is a side view of the left fixing component, the right fixing component and the bolt of the present invention;

fig. 5 is a schematic structural view of the left fixing component of the present invention;

fig. 6 is a side view of the left fixation assembly of the present invention;

fig. 7 is a schematic structural view of the right fixing component of the present invention;

fig. 8 is a side view of the right mounting assembly of the present invention.

The cable comprises a 1-connecting wire component, 101-conductors, 102-insulating layers, 2-polycarbonate, 3-reinforcing net sleeves, 4-polyvinyl chloride sheaths, 5-left fixing components, 501-left arc-shaped pieces, 502-semicircular cavities A, 503-bottom plates A, 504-fixing through holes A, 505-vertical plates A, 506-threaded through holes A, 507-anti-skidding particles A, 6-right fixing components, 601-right arc-shaped pieces, 602-semicircular cavities B, 603-bottom plates B, 604-fixing through holes B, 605-vertical plates B, 606-threaded through holes B, 607-anti-skidding particles B and 7-bolts.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

As shown in fig. 1, the utility model provides a solar lithium battery energy storage connection installation line, which comprises a connection line assembly 1, wherein the connection line assembly 1 is composed of a conductor 101 and an insulating layer 102, and the insulating layer 102 is wrapped outside the conductor 101;

specifically, as shown in fig. 1 to fig. 2, the present embodiment further includes a polycarbonate 2, a reinforcing mesh 3, and a polyvinyl chloride sheath 4, the insulating layer 102 is externally and fixedly wrapped with the polycarbonate 2, the polycarbonate 2 is externally and fixedly wrapped with the reinforcing mesh 3, and the reinforcing mesh 3 is externally and fixedly wrapped with the polyvinyl chloride sheath 4.

The conductor 101 is a pure copper conductor, and the copper conductor 101 has high performance-price ratio and high conductive effect.

The insulating layer 102 is a cross-linked polyethylene insulating layer, and the insulating layer 102 has good strength and temperature resistance, particularly high creep strength, and the strength of the insulating layer does not change remarkably with the use time.

The reinforcing net sleeve 3 is a carbon wire woven net sleeve, and the reinforcing net sleeve 3 is relatively wear-resistant and is not easy to curl.

Meanwhile, as shown in fig. 2 to 8, a left fixing component 5 and a right fixing component 6 are respectively and cooperatively arranged at the front part of the polyvinyl chloride sheath 4 in the embodiment, the left fixing component 5 includes a left arc-shaped member 501, a semicircular cavity a502, a bottom plate a503, a fixing through hole a504, a vertical plate a505 and a threaded through hole a506, the semicircular cavity a502 is arranged at the right part of the left arc-shaped member 501, the bottom plate a503 is fixedly arranged at the lower surface of the left arc-shaped member 501, the fixing through hole a504 is arranged at the left part of the bottom plate a503, the vertical plate a505 is fixedly arranged at the upper surface of the left arc-shaped member 501, and the threaded through holes a506 are respectively arranged at the front part and the rear part of the vertical plate a 505;

the right fixing component 6 comprises a right arc-shaped part 601, a semicircular cavity B602, a bottom plate B603, a fixing through hole B604, a vertical plate B605 and a threaded through hole B606, the semicircular cavity B602 is arranged at the left part of the right arc-shaped part 601, the bottom plate B603 is fixedly arranged on the lower surface of the right arc-shaped part 601, the fixing through hole B604 is formed at the right part of the bottom plate B603, the vertical plate B605 is fixedly arranged on the upper surface of the right arc-shaped part 601, and the threaded through holes B606 are respectively formed at the front part and the rear part of the vertical plate B605;

the polyvinyl chloride sheath is characterized in that a semicircular cavity A502 formed in the left arc-shaped piece 501 is buckled on the left side of the front portion of the polyvinyl chloride sheath 4, a semicircular cavity B602 formed in the right arc-shaped piece 601 is buckled on the right side of the front portion of the polyvinyl chloride sheath 4, the threaded through hole A506 formed in the vertical plate A505 and the threaded through hole B606 formed in the vertical plate B605 are arranged in a one-to-one correspondence mode, and bolts 7 are screwed between the threaded through hole A506 and the threaded through hole B606 correspondingly, so that the end portion of the polyvinyl chloride sheath 4 can be fixed at a required position conveniently through the left fixing component 5, the right fixing component 6 and the bolts 7.

Meanwhile, as shown in fig. 4 to 8, in the present embodiment, one hundred and fifty three anti-slip particles a507 are uniformly distributed on the side wall of the semicircular cavity a502 side on the left arc-shaped member 501, and one hundred and fifty three anti-slip particles B607 are uniformly distributed on the side wall of the semicircular cavity B602 side on the right arc-shaped member 601, so that the polyvinyl chloride sheath 4 is clamped by the anti-slip particles a507 and the anti-slip particles B607, and the left arc-shaped member 501 and the right arc-shaped member 601 are prevented from sliding along the polyvinyl chloride sheath 4.

The working principle of the specific embodiment is as follows: the conductor 101 is a pure copper conductor, and the copper conductor 101 has high cost performance and high conductive effect;

the insulating layer 102 is wrapped outside the conductor 101, the insulating layer 102 is a cross-linked polyethylene insulating layer, the strength and the temperature resistance of the insulating layer 102 are good, particularly the creep strength is high, and the change of the strength along with the use time is not obvious;

polycarbonate 2 is fixedly wrapped outside the insulating layer 102, and the polycarbonate 2 is colorless and transparent, heat-resistant, weak acid-resistant, weak base-resistant, neutral oil-resistant, impact-resistant and flame-retardant at BI level, so that the insulating layer 102 can be better protected, and the probability of corrosion and damage of the insulating layer 102 is reduced;

the reinforcing net sleeve 3 is fixedly wrapped outside the polycarbonate 2, the reinforcing net sleeve 3 is a carbon wire woven net sleeve, the reinforcing net sleeve 3 is relatively wear-resistant and is not easy to curl, the polycarbonate 2 is prevented from being quickly worn by the reinforcing net sleeve 3, and the service life of the polycarbonate 2 is prolonged by the reinforcing net sleeve 3;

the polyvinyl chloride sheath 4 is fixedly wrapped outside the reinforcing mesh 3, so that the reinforcing mesh 3 is protected by the polyvinyl chloride sheath 4, the reinforcing mesh 3 is directly abraded by the polyvinyl chloride sheath 4, and the service life of the conductor 101 is prolonged by the polycarbonate 2, the reinforcing mesh 3 and the polyvinyl chloride sheath 4;

a solar lithium battery energy storage connection installation line is manufactured through a connecting line component 1, polycarbonate 2, a reinforcing net sleeve 3 and a polyvinyl chloride sheath 4, a solar lithium battery energy storage connection installation line with a certain length is intercepted, the polyvinyl chloride sheath 4, the reinforcing net sleeve 3, the polycarbonate 2 and an insulating layer 102 with end parts with proper lengths are respectively cut off at two end parts of the solar lithium battery energy storage connection installation line, a left fixing component 5 and a right fixing component 6 are respectively placed at the front part of the polyvinyl chloride sheath 4 on the solar lithium battery energy storage connection installation line, a semicircular cavity A502 side of a left arc-shaped piece 501 on the left fixing component 5 is positioned at a proper position at the left side of the front part of the polyvinyl chloride sheath 4, a semicircular cavity B602 side of a right arc-shaped piece 601 on the right fixing component 6 is positioned at a proper position at the right side of the front part of the polyvinyl chloride sheath 4, the left arc-shaped piece 501 and the right arc-shaped piece 601 are buckled on the polyvinyl chloride sheath 4, two bolts 7 are respectively screwed with a threaded through hole B606 on an adjacent vertical plate B605 and a threaded through hole A506 on a vertical plate A505, anti-skid particles A507 arranged on a left arc-shaped piece 501 and anti-skid particles B607 arranged on a right arc-shaped piece 601 are respectively pricked into a polyvinyl chloride sheath 4, a left fixing assembly 5 and a right fixing assembly 6 are prevented from sliding along the polyvinyl chloride sheath 4 through the anti-skid particles A507 and the anti-skid particles B607, a conductor 101 at the front part is connected with a circuit connection point on a solar lithium battery energy storage battery, screws are respectively matched and arranged on a fixing through hole A504 on a bottom plate A503 and a fixing through hole B604 on the bottom plate B603, the left fixing assembly 5 and the right fixing assembly 6 are fixed at required positions through the bottom plates A503 and B603, and the other end of the conductor 101 is electrically connected with a required electric element;

to sum up, this embodiment assembles into solar energy lithium electricity energy storage through connecting wire subassembly 1, polycarbonate 2, reinforcing net cover 3, polyvinyl chloride sheath 4 and connects the mounting wire when using, has increased the life of solar energy lithium electricity energy storage connection mounting wire, is convenient for fix solar energy lithium electricity energy storage connection mounting wire through left fixed subassembly 5, right fixed subassembly 6, bolt 7.

The beneficial effects of the utility model reside in that: 1. the solar lithium battery energy storage connection mounting line is wear-resistant, weak acid-resistant, weak base-resistant, neutral oil-resistant, not easy to damage and expose electricity, and has long service life. 2. The conductor is a pure copper conductor, and the copper conductor has high cost performance and high conductive effect. 3. The insulating layer is a crosslinked polyethylene insulating layer, the strength and the temperature resistance of the insulating layer are good, particularly the creep strength is high, and the change of the strength along with the service time is not obvious. 4. The reinforcing net cover is a carbon wire woven net cover, so that the reinforcing net cover is relatively wear-resistant and is not easy to curl. 5. The end part of the polyvinyl chloride sheath is conveniently fixed at a required position through the left fixing component, the right fixing component and the bolt. 6. The equipartition sets up one hundred fifty three anti-skidding granule A on the lateral wall of the semi-circular cavity A side on the arc spare of a left side, the equipartition sets up one hundred fifty three anti-skidding granule B on the lateral wall of the semi-circular cavity B side on the arc spare of a right side, is convenient for press from both sides tight polyvinyl chloride sheath through anti-skidding granule A, anti-skidding granule B, prevents that arc spare, right arc spare from sliding along the polyvinyl chloride sheath.

The utility model discloses a concrete embodiment does not constitute the pair the utility model discloses a restriction, all adopt the utility model discloses a similar structure and change are all in the utility model discloses a within the protection scope.

Claims (6)

1. A solar lithium battery energy storage connection mounting line comprises a connecting line component (1), wherein the connecting line component (1) is composed of a conductor (101) and an insulating layer (102), and the insulating layer (102) is wrapped outside the conductor (101);

the method is characterized in that: the insulating layer (102) is fixedly wrapped with the polycarbonate (2), the polycarbonate (2) is fixedly wrapped with the reinforcing net sleeve (3) on the outer side of the polycarbonate (2), and the polyvinyl chloride sheath (4) is fixedly wrapped with the reinforcing net sleeve (3) on the outer side of the reinforcing net sleeve (3).

2. The solar lithium battery energy storage connection installation wire of claim 1, wherein: the conductor (101) is a pure copper conductor.

3. The solar lithium battery energy storage connection installation wire of claim 1, wherein: the insulating layer (102) is a crosslinked polyethylene insulating layer.

4. The solar lithium battery energy storage connection installation wire of claim 1, wherein: the reinforcing net cover (3) is a carbon wire woven net cover.

5. The solar lithium battery energy storage connection installation wire of claim 1, wherein: the front part of the polyvinyl chloride sheath (4) is respectively provided with a left fixing component (5) and a right fixing component (6) in a matching mode, the left fixing component (5) comprises a left arc-shaped part (501), a semicircular cavity A (502), a bottom plate A (503), a fixing through hole A (504), a vertical plate A (505) and a threaded through hole A (506), the right part of the left arc-shaped part (501) is provided with the semicircular cavity A (502), the lower surface of the left arc-shaped part (501) is fixedly provided with the bottom plate A (503), the left part of the bottom plate A (503) is provided with the fixing through hole A (504), the upper surface of the left arc-shaped part (501) is fixedly provided with the vertical plate A (505), and the front part and the rear part of the vertical plate A (505) are respectively provided with the threaded through hole A (506);

the right fixing component (6) comprises a right arc-shaped part (601), a semicircular cavity B (602), a bottom plate B (603), a fixing through hole B (604), a vertical plate B (605) and a threaded through hole B (606), wherein the semicircular cavity B (602) is arranged at the left part of the right arc-shaped part (601), the bottom plate B (603) is fixedly arranged on the lower surface of the right arc-shaped part (601), the fixing through hole B (604) is formed at the right part of the bottom plate B (603), the vertical plate B (605) is fixedly arranged on the upper surface of the right arc-shaped part (601), and the threaded through holes B (606) are respectively formed in the front part and the rear part of the vertical plate B (605);

the PVC sheath is characterized in that a semicircular cavity A (502) formed in the left arc-shaped piece (501) is buckled on the left side of the front portion of the PVC sheath (4), a semicircular cavity B (602) formed in the right arc-shaped piece (601) is buckled on the right side of the front portion of the PVC sheath (4), a threaded through hole A (506) formed in the vertical plate A (505) and a threaded through hole B (606) formed in the vertical plate B (605) are arranged in a one-to-one correspondence mode, and bolts (7) are screwed between the threaded through hole A (506) and the threaded through hole B (606) correspondingly.

6. The solar lithium battery energy storage connection installation wire of claim 5, wherein: a plurality of anti-slip particles A (507) are uniformly distributed on the side wall of the side of the semicircular cavity A (502) on the left arc-shaped part (501), and a plurality of anti-slip particles B (607) are uniformly distributed on the side wall of the side of the semicircular cavity B (602) on the right arc-shaped part (601).

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