Anti-freezing wind measurement tower
An anemometer tower, anti-freezing technology, applied in the field of electric power, can solve the problems of the local load of the anemometer tower, dumping, tilting of the anemometer tower, etc., and achieve the effect of simple method, remarkable effect and simple structure
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Embodiment 1
[0034] like Figure 1 to Figure 3 As shown, an anti-freezing wind measuring tower is introduced in this embodiment, which includes a vertically arranged tower tube 1, and multiple height surfaces in the middle of the tower tube 1 are respectively connected with a plurality of stay ropes 2 arranged at interval angles. The rope 2 is set tightly and the other end is fixed to the ground; the tower tube 1 is composed of multi-section tower tube sections 11 connected end to end sequentially from bottom to top; The heating wire 4 is used to heat and remove the ice and frost. The stay rope 2 is formed by winding multiple strands of steel wire ropes 21 .
[0035] By setting the heating wire 4 that can be energized and heated on the pull rope 2, the frost attached to the surface of the pull rope 2 is heated and removed, so that the snow and frost attached to the pull rope 2 in low temperature weather such as rain and snow are heated. Clearing, thereby avoiding the thick ice and snow at...
Embodiment 2
[0041] like Figure 2 to Figure 3 As shown, this embodiment is based on the anti-freezing wind measuring tower described in the first embodiment above, including a vertically arranged tower tube 1, and the tower tube 1 is connected with a plurality of stay ropes 2 arranged at interval angles, and the stay ropes 2 Tightly set, and the other end is fixed to the ground; the pull rope 2 is provided with a heating wire 4 for heating and removing the attached frost, and the power supply input end of the heating wire 4 is connected to the power bus 9 of the anemometer tower through the control switch 8 The pull rope 2 is provided with at least one temperature sensor 7 for detecting the surface temperature of the pull rope 2 , and the temperature sensor 7 is connected to the signal input end of the control switch 8 .
[0042]By arranging the temperature sensor 7 on the stay rope 2 of the wind measuring tower, the temperature on the surface of the stay rope 2 of the wind measuring towe...
Embodiment 3
[0049] The difference between this embodiment and the above-mentioned second embodiment is that: the pull cord 2 is provided with at least one weight sensor and / or light sensor for detecting the thickness of frost attached to the surface, and the weight sensor and / or light sensor are controlled The unit 82 is connected with the control switch 8 of the heating wire 4 to output an on-off signal to the control switch 8 (not indicated in the drawings).
[0050] In this embodiment, the control switch 8 provided on the heating wire 4 is an electromagnetic switch, and the electromagnetic switch includes a switch unit 81 for controlling the power on and off of the heating wire 4 and a control unit 82 for controlling the opening and closing of the switch unit 81 according to the received signal. The receiving end of 82 is connected to the signal output end of the corresponding weight sensor and / or light sensor via a signal circuit capable of transmitting signals, and the output end of t...
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