CN216388418U - Icing somatosensory training system for overhead power transmission and distribution line - Google Patents

Abstract

The utility model relates to an icing somatosensory training system for an overhead power transmission and distribution line, which comprises a simulation room body, a simulation overhead line, a temperature control system, a wind direction control system, a water vapor atomization system, a data monitoring system and test equipment, wherein the simulation overhead line, the temperature control system, the wind direction control system, the water vapor atomization system, the data monitoring system and the test equipment are arranged in the simulation room body; the simulation house body consists of six insulation boards, and an observation window and a sealing door are arranged on each insulation board; the simulation overhead line comprises a tower, and an insulator and a steel-cored aluminum strand which are arranged on the tower, and the simulation overhead line has the beneficial effects that: based on a physical simulation technology, a device for rapidly simulating the line icing is developed, the automatic control of steel-cored aluminum strand icing meteorological conditions such as temperature, humidity and wind speed is realized, the steel-cored aluminum strand icing process of the simulated overhead line is used for testing, trainees can closely observe the line icing development process, the basic principle of an icing online monitoring device is learned, and simulation practical training can be simulated through a deicing tool.

Description

Icing somatosensory training system for overhead power transmission and distribution line

Technical Field

The utility model relates to an icing somatosensory training system for an overhead power transmission and distribution line.

Background

Usually, high-tension electricity adopts reinforcing bar aluminum stranded conductor to carry, under low temperature environment, reinforcing bar aluminum stranded conductor produces the condition of icing easily, can carry out artifical deicing operation usually, in order to get rid of the icing on the reinforcing bar aluminum stranded conductor, because the danger coefficient of high-tension electricity is very high, and the height of shaft tower is higher, to the staff that is not experienced, it is comparatively difficult to operate, then need study the use of the process of icing and relevant instrument earlier, but if can be under the environment that danger coefficient is low, carry out the simulation training earlier, in order to carry out actual operation again after reaching skilled effect, safety more will be.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing an icing somatosensory training system for an overhead power transmission and distribution line, so as to overcome the defects in the prior art.

The technical scheme for solving the technical problems is as follows: an icing somatosensory training system for overhead power transmission and distribution lines comprises a simulation house body, and a simulation overhead line, a temperature control system, a wind direction control system, a water vapor atomization system and a data monitoring system which are arranged in the simulation house body; the simulation house body consists of a plurality of insulation boards, and the insulation boards are provided with observation windows and sealing doors; the simulation overhead line comprises a tower, and an insulator and a steel-cored aluminum strand which are arranged on the tower.

The utility model has the beneficial effects that: based on a physical simulation technology, a device for rapidly simulating the line icing is developed, the automatic control of steel-cored aluminum strand icing meteorological conditions such as temperature, humidity and wind speed is realized, the steel-cored aluminum strand icing process of the simulated overhead line is used for testing, trainees can closely observe the line icing development process, the basic principle of an icing online monitoring device is learned, and simulation practical training can be simulated through a deicing tool.

Drawings

FIG. 1 is a schematic structural view of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1. the device comprises a simulation room body, 11, an observation window, 12, a sealing door, 2, a simulation overhead line, 21, a tower, 22, an insulator, 23, a steel-cored aluminum strand, 24, an ice coating online monitoring device, 3, a temperature control system, 31, an industrial refrigerator, 32, a temperature control module, 4, a wind direction control system, 41, a negative pressure fan, 42, a speed regulator, 43, an air duct, 5, a steam atomization system, 51, a water inlet device, 52, a water pipe, 53, an atomization nozzle, 54, a high pressure pump, 55 and an atomization guide rail.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1, the ice-coating somatosensory practical training system for the overhead power transmission and distribution line comprises a simulation house body 1, a simulation overhead line 2, a temperature control system 3, a wind direction control system 4, a water vapor atomization system 5 and a data monitoring system 6, wherein the simulation overhead line 2, the temperature control system 3, the wind direction control system 4, the water vapor atomization system 5 and the data monitoring system 6 are arranged in the simulation house body 1; the simulation room body 1 consists of six insulation boards, and an observation window 11 and a sealing door 12 are arranged on each insulation board; the simulation overhead line 2 comprises a tower 21, an insulator 22 and an aluminum conductor steel reinforced 23, the insulator 22 and the aluminum conductor steel reinforced 23 are arranged on the tower 21, actual working experience is combined, the overhead line which is easy to ice-cover the aluminum conductor steel reinforced 23 is used as a prototype, models of the tower 21 and the insulator 22 which are reduced in equal proportion are designed and manufactured, the aluminum conductor steel reinforced 23 matched with the tower 21 is arranged, the simulation overhead line 2 for an ice-covering test is formed, and students can learn to remove ice on the simulation overhead line 2.

The simulated overhead line 2 further comprises an ice coating on-line monitoring device 24 arranged on the tower 21.

The temperature control system 3 comprises an industrial refrigerator 31 and a temperature control module 32 which are connected with each other and provides a proper temperature condition for the rapid ice coating simulation device, wherein the industrial refrigerator 31 provides a freezing environment for the simulation house body 1 and meets the basic ice coating requirement of the steel-cored aluminum strand 23; the temperature control module 32 regulates and controls the temperature inside the simulated room body 1.

The wind direction control system 4 comprises a negative pressure fan 41, a speed regulator 42 and a wind tube 43, the speed regulator 42 is arranged on the outer side of the simulation room body 1, the negative pressure fan 41 is arranged on one side far away from the sealing door 12, the negative pressure fan 41 is electrically connected with the speed regulator 42, the wind tube 43 is formed by arranging a plurality of wind pipes and provides a proper wind condition for the simulation room body 1, and the speed regulator 42 controls the wind speed of the negative pressure fan 41 to realize dynamic adjustment of wind quantity and wind speed; the air duct 43 is formed by arranging a plurality of air ducts to form a stable airflow field.

The water vapor atomization system 5 comprises a water inlet device 51, a water pipe 52 and an atomization nozzle 53 which are connected in sequence, wherein a high-pressure pump 54 is arranged in the water inlet device 51, an atomization guide rail 55 which is horizontally arranged is arranged in the simulation room body 1, and the atomization nozzle 53 slides along the atomization guide rail 55 to provide a humidity condition for simulating the inside of the room body 1. Wherein, the water inlet device 51 introduces an external water source into a corresponding pipeline in the simulation house body 1; the high-pressure pump 54 pressurizes the pipeline water source and then delivers the pressurized water source to the atomizing nozzle 53 through the water pipe 52; the atomizing nozzle 53 has various types, and can adjust the size of liquid drops to form fan-shaped spray; the atomizing guide rail 55 can drive the atomizing nozzle 53 to move, and the spraying range can be adjusted at will to form different ice coating shapes of the steel-cored aluminum strand 23.

The data monitoring system comprises a temperature monitoring system, a wind direction monitoring system and a water vapor atomization monitoring system, and is used for timely adjusting through monitoring of different dimensionalities so as to simulate the real icing state.

The bottom heat insulation board of the simulation house body 1 is coated with high cold-resistant high-strength polyurethane waterproof paint.

The test equipment comprises a cold protective clothing, an infrared thermometer, a vernier caliper and a deicing device, the cold protective clothing provides basic cold protection for trainees, the infrared thermometer is used for simulating and observing the icing steel-cored aluminum stranded wire 23, the vernier caliper is used for simulating and measuring the icing steel-cored aluminum stranded wire 23, and the trainees utilize simple manual deicing devices such as a deicing steering hook, a deicing hoe, a deicing hammer, a deicing shovel and a deicing axe to perform deicing experience.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (8)

1. The ice-coating somatosensory practical training system for the overhead power transmission and distribution line is characterized by comprising a simulation room body (1), a simulation overhead line (2), a temperature control system (3), a wind direction control system (4), a water vapor atomization system (5), a data monitoring system and test equipment, wherein the simulation overhead line (2), the temperature control system (3), the wind direction control system (4), the water vapor atomization system and the data monitoring system are arranged in the simulation room body (1); the simulation house body (1) consists of six insulation boards, and an observation window (11) and a sealing door (12) are arranged on each insulation board; the simulation overhead line (2) comprises a tower (21), and an insulator (22) and a steel-cored aluminum strand (23) which are arranged on the tower (21).

2. The ice-coating somatosensory practical training system for the overhead transmission and distribution line according to claim 1, characterized in that the simulated overhead line (2) further comprises an ice-coating online monitoring device (24) arranged on a tower (21).

3. The ice-coating somatosensory practical training system for the overhead power transmission and distribution line according to claim 1, wherein the temperature control system (3) comprises an industrial refrigerator (31) and a temperature control module (32) which are connected with each other.

4. The ice-coating somatosensory practical training system for the overhead power transmission and distribution line according to claim 1, wherein the wind direction control system (4) comprises a negative pressure fan (41), a speed regulator (42) and an air duct (43), the speed regulator (42) is arranged on the outer side of the simulated room body (1), the negative pressure fan (41) is arranged on one side of the sealed door (12), the negative pressure fan (41) is electrically connected with the speed regulator (42), and the air duct (43) is formed by arranging a plurality of air pipes.

5. The ice-coating somatosensory practical training system for the overhead power transmission and distribution line according to claim 1, wherein the water vapor atomization system (5) comprises a water inlet device (51), a water pipe (52) and an atomization nozzle (53) which are sequentially connected, a high-pressure pump (54) is arranged in the water inlet device (51), an atomization guide rail (55) which is horizontally arranged is arranged in the simulation room body (1), and the atomization nozzle (53) slides along the atomization guide rail (55).

6. The ice-coating somatosensory practical training system for the overhead power transmission and distribution line according to claim 1, wherein the data monitoring system (6) comprises a temperature monitoring system (61), a wind direction monitoring system (62) and a water vapor atomization monitoring system (63).

7. The ice-coating somatosensory practical training system for the overhead power transmission and distribution line according to claim 1, characterized in that a bottom heat insulation plate of the simulated house body (1) is coated with a high cold-resistant high-strength polyurethane waterproof coating.

8. The ice-coating somatosensory practical training system for the overhead power transmission and distribution line according to claim 1, wherein the test equipment comprises cold protective clothing, an infrared thermometer, a vernier caliper and a deicing device.

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