CN217157741U - Luminous power line with luminous function - Google Patents

Abstract

The utility model discloses a luminous power line with luminous function, which comprises a wire, a first plug connector and a second plug connector; the lead comprises a first tinned copper wire, a second tinned copper wire, an insulating layer, an outer tegument, a transparent protective layer, a noctilucent layer and a temperature-sensing color-changing layer, wherein the first tinned copper wire is provided with a plurality of conductors which are formed by twisting, the insulating layer is coated outside the conductors, the second tinned copper wire is provided with a plurality of conductors which are wound outside the insulating layer, the outer tegument, the temperature-sensing color-changing layer and the transparent protective layer are sequentially arranged outside the second tinned copper wire from inside to outside, the transparent protective layer is provided with a groove, and the noctilucent layer is arranged in the groove; so, through the design of transparent protective layer and night light layer to make the power cord possess luminous function under the environment of dark, simultaneously, the setting of temperature sensing discoloration layer, so that the user can master the temperature variation of power cord, has guaranteed the normal use of power cord, structural design is ingenious reasonable, and is stable in use, and application scope is wide.

Description

Luminous power line with luminous function

Technical Field

The utility model relates to a power cord field technique especially indicates a night light power cord with luminous function.

Background

At present, a power line is a conducting wire for conducting current, and is generally applied to the fields of electric power, communication and related current transmission; however, the power cord of the prior art can not be seen at night or in dark environment, so that a user can hardly find the power cord and easily trip over the power cord, and meanwhile, the power cord generates heat when being used.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a luminous power line with a light-emitting function, which is designed through a transparent protection layer and a luminous layer, so that the power line has a light-emitting function in a dark environment, and at the same time, the temperature-sensitive color-changing layer is arranged so that a user can master the temperature change of the power line, thereby ensuring the normal use of the power line.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a luminous power line with a luminous function comprises a lead, a first plug connector and a second plug connector; wherein: the wire comprises a first tinned copper wire, a second tinned copper wire, an insulating layer, an outer coating layer, a transparent protective layer, a noctilucent layer and a temperature-sensitive color-changing layer, wherein the first tinned copper wire is provided with a plurality of conductors which are twisted to form, the insulating layer is coated outside the conductors, the second tinned copper wire is provided with a plurality of conductors which are wound outside the insulating layer, the outer coating layer, the temperature-sensitive color-changing layer and the transparent protective layer are sequentially arranged outside the second tinned copper wire from inside to outside, the surface of the transparent protective layer is provided with a groove, the groove is provided with at least one and extends in the same direction as the wire, and the noctilucent layer is arranged in the groove; the first plug is arranged at one end of the wire and is connected with the wire in a conduction mode, and the second plug is arranged at the other end of the wire and is connected with the wire in a conduction mode.

As a preferable scheme, the four grooves are arranged around the periphery of the transparent protective layer at intervals, and the temperature-sensitive color-changing layer is exposed from the space between two adjacent grooves of the transparent protective layer.

As a preferable scheme, the groove is of a trapezoidal structure which is gradually reduced from outside to inside.

As a preferable scheme, the second tinned copper wire is wrapped with a non-woven fabric wrapping layer, and the wrapping layer is wrapped outside the non-woven fabric wrapping layer.

Preferably, the noctilucent layer is a noctilucent powder layer.

Preferably, the surfaces of the transparent protective layer and the noctilucent layer are coated with transparent waterproof layers.

As a preferable scheme, the transparent waterproof layer is acrylic waterproof paint.

Preferably, the thermochromic layer comprises a transparent protective sleeve and thermochromic powder, and the thermochromic powder is filled in the transparent protective sleeve.

Preferably, a first tensile layer is arranged outside the conductor, and the insulating layer covers the first tensile layer.

Preferably, the second tinned copper wire is wrapped by a second tensile layer, and the non-woven fabric wrapping tape layer is wrapped outside the second tensile layer.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, concretely speaking, known by the above technical scheme, it is mainly through the design of transparent protective layer and night light layer, utilize the night light layer to set up in the recess of transparent protective layer, so that the power cord possesses the light-emitting function under the dark environment, the phenomenon that the user was stumbled by the power cord has been avoided, so that the user discerns and maintains the power cord, simultaneously, the setting of temperature sensing discoloration layer, so that the user can master the temperature variation of power cord, thereby avoid causing the power cord to appear burning or short circuit phenomenon because of the high temperature, the normal use of power cord has been guaranteed, structural design is ingenious reasonable, stable in use, application scope is wide;

and, the setting of non-woven fabrics band layer, it has the dampproofing of preferred, ventilative, pliable and tough, matter is light and combustion-supporting performance not, has avoided the inside of external steam infiltration power cord, has further guaranteed the normal use of power cord, and simultaneously, the setting of transparent waterproof layer is favorable to the power cord to use under the underwater or under moist environment, and has guaranteed the use of night light layer, and, the setting of first tensile layer and second tensile layer has prevented that the power cord from appearing the condition of snapping the power cord when the installation, and usability is good.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a front view of an embodiment of the present invention;

fig. 2 is a cross-sectional view of a wire according to an embodiment of the present invention.

The attached drawings indicate the following:

10. wire 101, first tensile layer

102. Second tensile layer 11, conductor

12. Second tinned copper wire 13, insulating layer

14. Outer coating layer 15 and transparent protective layer

151. Groove 16, luminous layer

17. Thermochromic layer 171 and thermochromic powder

18. Non-woven fabric belting layer 19 and transparent waterproof layer

20. First plug connector 21 and first insulating base

22. First plug end 30 and second plug connector

31. Second insulating base 32 and second plug end

33. A luminescent piece.

Detailed Description

Please refer to fig. 1 and fig. 2, which show the specific structure of the embodiment of the present invention.

A luminous power line with a luminous function comprises a lead 10, a first plug 20 and a second plug 30; wherein: the lead 10 comprises a first tinned copper wire, a second tinned copper wire 12, an insulating layer 13, a tegument layer 14, a transparent protective layer 15, a luminous layer 16 and a temperature-sensitive discoloration layer 17, wherein the first tinned copper wire is provided with a plurality of conductors 11 which are twisted to form the conductors 11, the insulating layer 13 covers the conductors 11, the second tinned copper wire 12 is provided with a plurality of conductors which are wound outside the insulating layer 13, the tegument layer 14, the temperature-sensitive discoloration layer 17 and the transparent protective layer 15 are sequentially arranged outside the second tinned copper wire 12 from inside to outside, a groove 151 is formed in the surface of the transparent protective layer 15, at least one groove 151 is formed in the groove 151 and extends in the same direction as the lead 10, and the luminous layer 16 is arranged in the groove 151; the first plug 20 is arranged at one end of the wire 10 and is connected with the wire 10 in a conduction manner, and the second plug 30 is arranged at the other end of the wire 10 and is connected with the wire 10 in a conduction manner; so, through the design of transparent protective layer and night light layer, so that the power cord possesses luminous function under the environment of dark, the phenomenon that the user stumbled by the power cord has been avoided, so that the user to the discernment and the maintenance of power cord, and simultaneously, the setting of temperature sensing discoloration layer, so that the user can master the temperature variation of power cord, thereby avoid appearing burning or short circuit phenomenon because of the high temperature leads to the power cord, the normal use of power cord has been guaranteed, and structural design is ingenious reasonable, and is stable in use, and application scope is wide.

In this embodiment, four grooves 151 are provided, the four grooves 151 are arranged at intervals around the periphery of the transparent protection layer 15, and the thermochromic layer 17 is exposed from between two adjacent grooves 151 of the transparent protection layer 15; here, the groove 151 is a trapezoidal structure gradually decreasing from outside to inside; preferably, the noctilucent layer 16 is a layer of noctilucent powder, so that the noctilucent powder can store light energy after being irradiated by natural light, daylight lamp light, ultraviolet light, etc., and can slowly release the light energy in a fluorescent manner after the irradiation of the light energy is stopped, so that the noctilucent layer can emit light for a long time at night or in the dark.

Here, the thermochromic layer 17 includes a transparent protective cover 171 and thermochromic powder 172, and the thermochromic powder 172 is filled in the transparent protective cover 171.

The second tinned copper wire 12 is covered with a nonwoven fabric tape layer 18, and the outer layer 14 is covered with the nonwoven fabric tape layer 18.

And the surfaces of the transparent protective layer 15 and the noctilucent layer 16 are coated with a transparent waterproof layer 19, and the transparent waterproof layer 19 is acrylic waterproof paint.

A first tensile layer 101 is arranged outside the conductor 11, the insulating layer 13 covers the first tensile layer 101, a second tensile layer 102 covers the second tinned copper wire 12, and the non-woven fabric belting layer 18 covers the second tensile layer 102; preferably, the first tensile layer 101 and the second tensile layer 102 are both glass fiber layers.

Generally, the first plug 20 is disposed at the right end of the wire 10, the second plug 30 is disposed at the left end of the wire 10, the first plug 20 includes a first insulating base 21 and a first plug end 22 disposed on the first insulating base 21, the first plug end 22 is conductively connected to the wire 10, the second plug 30 includes a second insulating base 31 and a second plug end 32 disposed on the second insulating base 31, and the second plug end 32 is conductively connected to the wire 10; and, a noctilucent piece 33 is arranged on the second insulating base 31, and the noctilucent piece 33 is embedded in the surface of the second insulating base 31.

The utility model discloses a design is mainly through the design of transparent protective layer and night light layer, utilize the night light layer to set up in the recess of transparent protective layer, so that the power cord possesses the luminous function under the environment of dark, the phenomenon that the user stumbled by the power cord has been avoided, so that the user discerns and maintains the power cord, simultaneously, the setting of temperature sensing discoloration layer, so that the user can master the temperature variation of power cord, thereby avoid leading to the power cord to appear burning or short circuit phenomenon because of the high temperature, the normal use of power cord has been guaranteed, structural design is ingenious reasonable, stable in use, and wide application scope;

and, the setting of non-woven fabrics band layer, it has the dampproofing of preferred, ventilative, pliable and tough, matter is light and combustion-supporting performance not, has avoided the inside of external steam infiltration power cord, has further guaranteed the normal use of power cord, and simultaneously, the setting of transparent waterproof layer is favorable to the power cord to use under the underwater or under moist environment, and has guaranteed the use of night light layer, and, the setting of first tensile layer and second tensile layer has prevented that the power cord from appearing the condition of snapping the power cord when the installation, and usability is good.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. A luminous power cord with luminous function which characterized in that: comprises a lead, a first plug connector and a second plug connector; wherein: the lead comprises a first tinned copper wire, a second tinned copper wire, an insulating layer, an outer coating layer, a transparent protective layer, a noctilucent layer and a temperature-sensitive color-changing layer, wherein the first tinned copper wire is provided with a plurality of conductors which are twisted to form the first tinned copper wire, the insulating layer is coated outside the conductors, the second tinned copper wire is provided with a plurality of conductors which are wound outside the insulating layer, the outer coating layer, the temperature-sensitive color-changing layer and the transparent protective layer are sequentially arranged outside the second tinned copper wire from inside to outside, the surface of the transparent protective layer is provided with a groove, the groove is provided with at least one groove and extends in the same direction as the lead, and the noctilucent layer is arranged in the groove; the first plug is arranged at one end of the wire and is connected with the wire in a conduction mode, and the second plug is arranged at the other end of the wire and is connected with the wire in a conduction mode.

2. A luminous power cord with luminous function as claimed in claim 1, characterized in that: the temperature-sensitive color-changing layer is exposed from the space between two adjacent grooves of the transparent protective layer.

3. A luminous power cord with luminous function as claimed in claim 1, characterized in that: the groove is of a trapezoidal structure which is gradually reduced from outside to inside.

4. A luminous power cord with luminous function as claimed in claim 1, characterized in that: and a non-woven fabric belting layer is coated outside the second tinned copper wire, and the outer tegument layer is coated outside the non-woven fabric belting layer.

5. A luminous power cord with luminous function as claimed in claim 1, characterized in that: the noctilucent layer is a noctilucent powder layer.

6. A luminous power cord with luminous function as claimed in claim 1, characterized in that: and the surfaces of the transparent protective layer and the noctilucent layer are coated with transparent waterproof layers.

7. A luminous power cord with luminous function as claimed in claim 6, characterized in that: the transparent waterproof layer is acrylic waterproof paint.

8. A luminous power cord with luminous function as claimed in claim 1, characterized in that: the temperature sensing color changing layer comprises a transparent protective sleeve and temperature sensing color changing powder, and the temperature sensing color changing powder is filled in the transparent protective sleeve.

9. A luminous power cord with luminous function as claimed in claim 1, characterized in that: a first tensile layer is arranged outside the conductor, and the insulating layer wraps the first tensile layer.

10. A luminous power cord with luminous function as claimed in claim 4, characterized in that: and a second tensile layer is coated outside the second tinned copper wire, and the non-woven fabric belting layer is coated outside the second tensile layer.

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