CN105649393A - Electric power transmission tower - Google Patents

Abstract

The invention discloses an electric power transmission tower, which comprises an electric power transmission tower body, wherein an auxiliary heating system is additionally arranged on the electric power transmission tower body, and consists of a heat collecting device, a liquid storage groove, a circulation guide pipe, a circulation pump and a heat absorption layer; the heat absorption layer uniformly covers the outer surface of the electric power transmission tower body; a hard protection layer is additionally arranged on the outer surface of the heat absorption layer; the heat collection device consists of a vacuum pipe heat collector and a light gathering heat collector; the vacuum pipe heat collector is arranged on the electric power transmission tower body; the light gathering heat collector is arranged on the upper surface of the liquid storage groove; the liquid storage groove is formed in the lower end of the electric power transmission tower body; the circulation guide pipe is arranged on a load bearing structure beam of the electric power transmission tower body; the two ends of the circulation guide pipe are connected with the liquid storage groove; the circulation guide pipe is also connected with the heat collection device and the circulation pump; and heat storage liquid is additionally contained in the liquid storage groove. The electric power transmission tower has the advantages that the heat in the sun light can be effectively collected and stored, and is used for improving the self temperature of the power transmission tower, so that the effect of preventing icing on the surface of the electric power transmission tower is achieved.

Description

A kind of electric power transmission tower

Technical field

The present invention relates to a kind of electric power transmission tower, belong to electric shaft tower technical field.

Background technology

At present, when carrying out electric energy long-distance transmissions, mainly rely on the power transmission tower of band large-scale metal frame structure that transmission line of electricity is carried out unsettled erection, in use find, the reasons such as the fluctuation change that the working environment residing for power transmission tower is different or working environment generation is abnormal, very easily cause and occur at power transmission tower surface icing phenomenon, when icing amount is excessive by the operation safety of serious threat to power transmission tower, even result in power transmission tower time serious to cave in, thus causing serious power supply trouble, and current power transmission tower is all without icing protection actively, the theoretical values being only dependent on calculating is built, therefore the resistivity of Environmental variations is low, effectively power transmission tower icing phenomenon can not be prevented, it is thus desirable to design a kind of novel power transmission tower.

Summary of the invention

The object of the invention is that and overcomes above-mentioned deficiency, it is provided that a kind of electric power transmission tower.

For achieving the above object, the present invention is achieved through the following technical solutions:

A kind of electric power transmission tower, including electric power transmission tower body, electric power transmission tower body separately sets concurrent heating system, concurrent heating system is by heat collector, reservoir, circulation conduit, circulating pump and heat-sink shell are constituted, heat-sink shell is evenly coated at electric power transmission tower body outer surface, and the another hard of heat-sink shell outer surface sets up defences sheath, heat collector is made up of vacuum tube collector and concentrating collector, wherein vacuum tube collector is installed on electric power transmission tower body, and distance perpendicular to the ground is not less than the 1/2 of power transmission tower body total height, concentrating collector is arranged on reservoir upper surface, reservoir is arranged on electric power transmission tower body lower end, circulation conduit is arranged on electric power transmission tower body load-carrying members beam, and two ends are all connected with reservoir, circulation conduit is separately connected with heat collector and circulating pump respectively, heat accumulation liquid is separately set in reservoir.

Circulation conduit is high heat-conducting.

Vacuum tube collector is made up of support body, Reflecting backboard and at least one vacuum heat collection pipe, and wherein vacuum heat collection pipe and Reflecting backboard are installed on support body, and Reflecting backboard is positioned at vacuum heat collection pipe lower surface, and is not less than 1 millimeter in vacuum heat-collecting tube pitch.

Concentrating collector working method is any one or two kinds of combinations of reflecting condensation, refraction condensation working method.

Heat accumulation liquid is inorganic salt solution.

Heat-sink shell is blackboard paint, black nickel selective absorbing coating.

Present configuration is simple, effectively the heat energy in sunlight can be collected and store, and be used for improving power transmission tower own temperature, places, thus playing, the effect that power transmission tower surface freezes, and simultaneously collected heat energy is alternatively periphery plurality of devices and supplies.

Accompanying drawing explanation

Fig. 1 is present configuration schematic diagram;

Fig. 2 is partial enlargement structural representation of the present invention;

Fig. 3 is vacuum tube collector structural representation.

Detailed description of the invention

Such as Fig. 1, shown in 2 and 3, a kind of electric power transmission tower, including electric power transmission tower body 1, electric power transmission tower body 1 separately sets concurrent heating system, concurrent heating system is by heat collector, reservoir 2, circulation conduit 3, circulating pump 4 and heat-sink shell 5 are constituted, heat-sink shell 5 is evenly coated at electric power transmission tower body 1 outer surface, and the another hard of heat-sink shell 5 outer surface sets up defences sheath 6, heat collector is made up of vacuum tube collector 7 and concentrating collector 8, wherein vacuum tube collector 7 is installed on electric power transmission tower body 1, and distance perpendicular to the ground is not less than the 1/2 of power transmission tower body 1 total height, concentrating collector 8 is arranged on reservoir 2 upper surface, reservoir 2 is arranged on electric power transmission tower body 1 lower end, circulation conduit 3 is arranged on electric power transmission tower body 1 load-carrying members beam, and two ends are all connected with reservoir 2, circulation conduit 3 is separately connected with heat collector and circulating pump 4 respectively, heat accumulation liquid 9 is separately set in reservoir 2.

Vacuum tube collector 7 is made up of support body 10, Reflecting backboard 11 and at least one vacuum heat collection pipe 12, wherein vacuum heat collection pipe 12 and Reflecting backboard 11 are installed on support body 10, and Reflecting backboard 11 is positioned at vacuum heat collection pipe 12 lower surface, and it is not less than 1 millimeter in vacuum heat collection pipe 12 spacing.

In use, the heat energy of the heat-sink shell sunlight to being irradiated on power transmission tower carries out absorbing storage and slowly carrying out heat release on the one hand, solar energy is then efficiently acquired by heat collector on the other hand, and the heat of the solar energy after collection is finally transferred in heat accumulation liquid by circulation conduit, and heat accumulation liquid circulating pump driving under, reservoir and circulation conduit carry out reciprocation cycle motion, and on the one hand the heat of heat collector collection is finally stored in the heat accumulation liquid of reservoir, the heat in heat accumulation liquid is made to be released slowly into the region of interest of the power tower that circulation conduit is installed on the other hand, finally play the effect improving power transmission tower surface temperature.

Claims (6)

1. an electric power transmission tower, including electric power transmission tower body, it is characterized in that: described electric power transmission tower body separately sets concurrent heating system, described concurrent heating system is by heat collector, reservoir, circulation conduit, circulating pump and heat-sink shell are constituted, described heat-sink shell is evenly coated at electric power transmission tower body outer surface, and the another hard of heat-sink shell outer surface sets up defences sheath, described heat collector is made up of vacuum tube collector and concentrating collector, wherein vacuum tube collector is installed on electric power transmission tower body, and distance perpendicular to the ground is not less than the 1/2 of power transmission tower body total height, described concentrating collector is arranged on reservoir upper surface, reservoir is arranged on electric power transmission tower body lower end, described circulation conduit is arranged on electric power transmission tower body load-carrying members beam, and two ends are all connected with reservoir, described circulation conduit is separately connected with heat collector and circulating pump respectively, heat accumulation liquid is separately set in described reservoir.

2. a kind of electric power transmission tower according to claim 1, it is characterised in that: described circulation conduit is high heat-conducting.

3. a kind of electric power transmission tower according to claim 1, it is characterized in that: described vacuum tube collector is made up of support body, Reflecting backboard and at least one vacuum heat collection pipe, wherein vacuum heat collection pipe and Reflecting backboard are installed on support body, and Reflecting backboard is positioned at vacuum heat collection pipe lower surface, and it is not less than 1 millimeter in vacuum heat-collecting tube pitch.

4. a kind of electric power transmission tower according to claim 1, it is characterised in that: described concentrating collector working method is any one or two kinds of combinations of reflecting condensation, refraction condensation working method.

5. a kind of electric power transmission tower according to claim 1, it is characterised in that: described heat accumulation liquid is inorganic salt solution.

6. a kind of electric power transmission tower according to claim 1, it is characterised in that: described heat-sink shell is blackboard paint, black nickel selective absorbing coating.