SU86369A1 - Device for measuring wavelength in experienced wave pools - Google Patents

Description

It is known to measure the wavelength B of the experimental wave pools either with the help of a ruler, which measures the distance between two adjacent ridges, or with the help of preliminary determination of the period and the speed of wave propagation in the blister; upon receipt of this data, the wavelength is calculated by the formula; L CT, where L- (wavelength, C-speed of wave propagation, .-- period of waves. The first method gives greater error, and the second is inconvenient, because the wavelength can be obtained only | after processing the preliminary data.

The described device is free of the indicated drawbacks, it is of sufficient accuracy for practical purposes and does not require any calculations, since the wavelength is read directly on a scale graduated in length measures.

The drawing shows the described device and the scheme of its inclusion.

The device consists of four brass electrodes 1 and 2. forming in pairs in pairs with the same immersion into water two sensors of equal resistance. The electrodes are mounted on the frame 3. The electrodes / are mounted on the fixed part of the device, and the electrodes 2 are mounted on the movable carriage 4, which can move along the frame guides.

Electrodes 1 and 2 are included in the two arms of the bridge of the Iston; The two other shoulders are two resistances of 5 pb odiac.

The circuit is powered by the battery 7, the voltage of which is 4 -: - 5 v. Galvanometer 8 will not give any deviations when electrodes / and 2 (resistance sensors) are immersed in water by the same amount. During waves, the equilibrium state of the bridge can occur when the electrodes are separated from one another by a distance equal to the wavelength. Under this condition, the electrodes are washed at any time by the same phases of the waves and, therefore, immersed in water at the same depth. To determine the wavelength, the movable carriage 4 must be moved along the guides until an equilibrium state of the Wheatstone bridge is reached.

In the absence of galvanometer deviations, the wavelength is determined on a scale of 9.

The device can also be used to control the stability of the mode of waves created in a pool by a wave-reproducing installation. In this case, the electrodes are set to a predetermined wavelength, and the stability of the wave mode is monitored using a galvanometer.

Subject invention

Claims (4)

I. Device for measuring the wavelength in experienced wave pools by measuring the level of the wave by the method of resistance using a measuring scheme in the form of a Wheatstone bridge, which is different from the fact that, in order to ensure speed and accuracy of measurements, the device is made of two resistance sensors one of which is fixed on the transverse wall of the basin, and the second is mounted on the carriage moving along the pool so that the value of the carriage movement along the pool until Ovesnov state bridge sballansirovannogo to BUAA volnovosproizvod conductive installation can be judged on the wavelength. 2. The device according to claim 1, characterized in that a scoop is fastened on the longitudinal wall of the pool, but which is directly measured by the wavelength. 3. In the device according to claims. 1-2 application for installing a resistance sensor and for including them in a bridge frame with a removable frame fixed to the pool. 4. Application of the device according to Mon. 1-2 to control the stability of the wave mode by creating: a wave-reproducing installation in the pool