TR2021021478A2 - TOWER ANTI-ICE SYSTEM - Google Patents

Abstract

This invention relates to a system (1) that eliminates the risks of ice while climbing metal towers in winter and heats the iron parts of the tower.

Description

DESCRIPTION TOWER ANTI-ICE SYSTEM Technical Field This invention is related to a system that enables the elimination of risks caused by ice when climbing metal towers in winter and the heating of the iron parts of the tower. Prior Art Today, towers containing radio and antenna units, where network elements are located, can freeze at very low temperatures. The icing of these towers, which are affected by weather conditions, has a bad effect on the internal parts and functioning of the network elements and can sometimes cause permanent damage. It can be very difficult and dangerous for teams responding to ice to climb the icy tower surface. The resulting ice can be removed manually, etc. It can be broken using hand tools. In fact, sometimes the tower becomes icy in winter and cannot be intervened at all due to occupational health and safety standards. Considering the studies in the current technique, it is understood that a system is needed that eliminates the risks caused by icing in climbing metal towers. In the state-of-the-art Chinese patent document numbered CN110165356B, a system that enables defrosting on the signal tower is mentioned, thanks to a mounting plate positioned on the support rod of the antenna transmitting the television broadcast signal. In the system of the invention in question, there is a heating plate and an antenna body on the mounting plate, the antenna body is positioned on the upper surface of the heating plate, and the upper part of the support rod is covered with a protection device at a suitable location from the antenna body. An additional heating mechanism is placed on the antennas to prevent damage to the antennas due to the weight of the ice when the snow freezes in snowy weather. The existing heating mechanism enables the ice on the antenna to melt. Brief Description of the Invention. The purpose of this invention is to provide heating of the tower after the remote software command or the device reaches the station to which it is connected, before icing begins on the towers. Detailed Description of the Invention. The "Tower Ice Prevention System" implemented to achieve the purpose of this invention is shown in the figure below. , this shape; Figure 1; The subject of the invention is a schematic view of the system. The parts in the figures are numbered one by one, and the equivalents of these numbers are given below. . System . Heating tape. Temperature sensor. It measures temperature. Contactor . Voltage converter . LED lamp 9. Junction box. Steel clamp OONGîu'ILwNi-i 11. Terminal block 12. Direct current (DC) cable The subject of the invention is a system that eliminates the risks caused by ice when climbing metal towers in winter and provides heating of the iron parts of the tower - a system that has a waterproof feature, heats the tower stairs and tower stairs. at least two heater strips (2) that prevent icing throughout, - at least one temperature sensor (3) configured to measure the air temperature, - at least one temperature meter (4) configured to communicate with the temperature sensor (3) and receive ambient temperature information ), - at least one contactor (5) configured to enable remote control of the circuit by performing electromagnetic switching, - at least one relay (6) configured to communicate with the heater bands (2) and trigger the heater bands (2) to operate, - at least one voltage converter (7) configured to communicate with the relay (6) and determine the voltage at which the heater strips (2) will operate, - at least one LED lamp (configured to emit light in different colors according to the actions taken in predetermined steps in the process of preventing ice formation). 8), - at least one junction box (9) configured to operate the ice formation prevention components placed on the tower, - at least two clamps (10) that enable the heater bands (2) to be positioned on the tower, - the electrical circuit on the junction box (9). It contains at least four terminal blocks (1 l) that enable the connection of transmission cables, - at least one direct current cable (12) that allows the circuit elements positioned on the junction box (9) to be connected to each other. The heater band (2) located in the system (1) of the invention. It has a waterproof feature, heats the tower stairs to a temperature that will prevent icing, and is located on the junction box (9). The temperature sensor (3) located in the system (1) of the invention measures the temperature at the location of the tower and is positioned on the junction box (9). The temperature meter (4) located in the system (1) of the invention communicates with the temperature sensor (3) and receives the detected temperature value, and there is at least one relay on it. The contactor (5) located in the system (1) of the invention is configured to provide remote control of the circuit by performing electromagnetic switching and to be positioned on the junction box (9). The relay (6) located in the system (1) of the invention is configured to communicate with the heater bands (2) and to trigger the heater bands (2) to activate them and to be positioned on the junction box (9). The voltage converter (7) located in the system (1) of the invention is configured to communicate with the relay (6) and determine the voltage at which the heater strips (2) will operate and to be positioned on the junction box (9). The LED lamp (8) in the system (1) of the invention is configured to glow green when -48 V DC energy is supplied to the junction box (9), preferably in the process of preventing ice formation. The LED lamp (8) is configured to glow red when the heater strips (2) are activated. The junction box (9) in the system (1) of the invention is configured to operate the working elements in the process of preventing ice formation on the tower. The clamp (10) in the system (1) of the invention is made of steel and is used to position the heater bands (2) on the tower. The terminal block (1 l) in the system (1) of the invention is configured to enable the connections of the direct current cables (12) on the junction box (9). The direct current cable (12) located in the system (1) of the invention is configured to enable the connection of the circuit elements positioned on the junction box (9). Application of the Invention to Industry In the system (1) of the invention, firstly, heater bands (2) are placed on the tower stairs and the assembly of other electronic parts is completed. The system (1) is fed with -48V direct current. The desired temperature level is set remotely by the authorized user. When the outdoor temperature drops below this set value, the system (1) circuit is activated and the waterproof heater strips (2) begin to heat up. The heated heater strips (2) heat the tower stairs and prevent possible icing. Thanks to this invention, a system that allows the tower to be heated after a remote software command or a remote software command reaches the station to which the device is connected, is obtained before icing begins on the towers. Around these basic concepts, it is possible to develop a wide variety of applications related to the system (1) that is the subject of the invention, and the invention cannot be limited to the examples explained here, it is essentially as stated in the claims. TR TR TR TR

Claims (12)

CLAIMS . It ensures that the risks caused by ice are eliminated when climbing metal towers in winter and the iron parts of the tower are heated; -At least two heater tapes (2) that are waterproof, heat the tower staircase and prevent icing along the tower staircase, -at least one temperature sensor configured to measure the air temperature -configured to communicate with the temperature sensor (3) and obtain ambient temperature information. at least one temperature meter (4), - at least one contactor (5) configured to enable remote control of the circuit by performing electromagnetic switching, - at least one configured to communicate with the heater bands (2) and trigger the heater bands (2) to operate. a relay (6), -at least one voltage converter (7) configured to communicate with the relay (6) and determine the voltage at which the heater strips (2) will operate, -to emit light in different colors according to the actions taken at predetermined steps in the process of preventing ice formation. - at least one LED lamp (8) configured to operate the ice formation prevention components placed on the tower (9), - at least two clamps (10) that enable the heating bands (2) to be positioned on the tower, - At least four terminals (l) that enable the connection of electrical transmission cables on the junction box (9) 1), -at least one direct current cable (1) that enables the connection of the circuit elements located on the junction box (9) to each other 2) A system characterized by (1). . A system (1) as in Claim 1, characterized by at least two heater bands (2) positioned on the junction box (9), which has a waterproof feature and heats the tower stairs to a temperature that will prevent icing. The temperature sensor located on the junction box (9) measures the temperature at the location of the tower ( A system (1) as in Claim 1 or 2, characterized by 3). . The temperature meter (which is configured to receive the detected temperature value by communicating with the temperature sensor (3) A system (1) as in any of the above claims, characterized by 4). The contactor (configured to provide remote control of the circuit by performing electromagnetic switching and to be positioned on the junction box (9) A system (1) as in any of the above claims, characterized by 5). . A system (1) as in any of the above claims, characterized by a relay (6] configured to communicate with the heating tapes (2) and to trigger the heating tapes (2) to activate them and to be positioned on the junction box (9)... Relay ( Voltage converter (configured to communicate with 6) and to determine the voltage at which the heater strips (2) will operate and to be positioned on the junction box (9). A system (1) as in any of the above claims, characterized by 7). LED lamp (which is configured to glow green when direct current energy is supplied to the junction box (9) in the process of preventing ice formation). A system (1) as in any of the above claims, characterized by the LED lamp (8) configured as in any of the above claims. Junction box (which is configured to operate the working elements in the process of preventing ice formation on the tower). A system (1) as in any of the above claims, characterized by 9). The clamp (made of steel) and configured to ensure the positioning of the heater bands (2) on the tower ( A system (1) as in any of the above claims, characterized by 10). At least four terminal blocks (configured to ensure the connections of the direct current cables (12) on the junction box (9) A system as in any of the above claims, characterized by 11), is a direct current cable (direct current cable) configured to ensure the connection of the circuit elements positioned on the junction box (9). A system as in any of the above claims, characterized by 12)