DE139938C - - Google Patents

Description

IMPERIAL A

PATENT OFFICE.

The anemographs, anemometers or wind pressure gauges known up to now have the Purpose of measuring the pressure exerted by the wind on an impact surface. It happens this in such a way that there is always only one impact surface of any shape to swing the wind in Position or horizontally displaceable is opposed and that the through the movement produced by a pointer on a scale that is brought into contact with the cleat is displayed or registered by means of writing.

The results obtained here therefore always relate to only one gust area, and it is not possible with such an apparatus to measure the pressure of the wind which is in a and at the same time on variously shaped and the wind under different The effect of measuring the abutment surfaces against angles is to measure the different Can compare prints with each other. It is Z. B. not possible with one of the previous Apparatus the magnitude of the wind pressure on a sphere, on a prism, on a cylinder or on a cone of 1 square meter projection area to be compared with the one next to it straight, vertical surface where the wind pressure is also 1 square meter projection area 50 kg.

To solve such tasks on. mechanical ^WT ege was previously no need before, because the meteorological stations, observatories, weather stations and the like. Institute, where the installation of wind blades is the most widely used, are content 40

thus, the wind force and direction in the various winds, usually divided into twelve levels Register months of the year.

The situation is different in modern building engineering, such as B. in bridge, Tower and chimney construction. Here, the static calculations require precise knowledge the wind pressure on the differently shaped pressure surfaces. Your stated purposes the compound wind pressure gauge described below is used.

Fig. Ι shows this apparatus in longitudinal section, Fig. 2 in plan and Fig. 3 in cross section . FIGS. 4, 5 and 6 show on a larger scale an example of the attachment and Position of the cleat against the wind.

The apparatus consists of a housing aa (Fig. Ι and 2), which rotates in ball bearings on a fixed stand b and is pointed in the shape of a ship so as not to influence the flow of the wind. A wind vane c always holds the housing α against the wind with its cutting edge. In the housing a , two or more shafts ww are mounted horizontally in ball bearings. The arms k 0 (FIG. 1) are attached to the head ends of the same. The latter wear on theirs. Ends the horizontally swinging flags ii (Fig. 4, 5 and 6). The actual abutting surfaces are secured em in these flags, which can be different in form and shape throughout. In order to be able to hold the impact surfaces against the wind at any angle, an intermediate member in the form of a rotatable tongue g (Fig. 4 to 6) is switched on, which shows the degree of displacement on a scale h

Position. The flags i are balanced and swing around horizontal axes χ and are held in their horizontal equilibrium position by the wind. This equilibrium position can also be established by a parallelogram. Likewise, the arms k o are held in their zero position by the spiral springs s (Fig. 1 and 3), which can also be done by oscillating weights. In the housing α α there is also a writing unit d (Fig. 1). All movements of the wind are applied simultaneously to the drum of the same, namely:

1. the different wind pressures which are applied to the differently shaped cleat plates be handed in,

2. the wind directions of the regions of the sky,

3. the deviation of the wind from the horizontal direction.

The handling and mode of operation of the apparatus is as follows. Before the apparatus is put into operation, those abutting surfaces are applied whose pressure one wishes to know. B. with a hollow sphere m, a cylindrical or spherical surface, etc., let work. As soon as the wind starts, the ship-shaped housing rotates vertically against the wind. The wind then touches the impact surfaces em and moves the arms k 0 in a deflection from ο to go °, corresponding to the resistance force of the spiral spring. In this case, the arm that offers the better attack surface gives the greater deflection (in the exemplary embodiment shown, for example, arm 0). In the main, a common game will begin between two or more differently shaped impact surfaces placed at different angles against the wind. In one and the same time at one and the same wind speed, the differences in the impact surfaces result in pressure differences, which are visibly displayed and registered. Thus, by multiple arrangement of different abutting surfaces of the same size projection area in a single housing, individual printing results can be achieved which can be compared with one another.

Claims (1)

Patent claim: Anemometer for measuring the wind pressure on differently designed surfaces and bodies, characterized in that in a ship-shaped tapered housing (aa) two or more independently working abutment surfaces (em) with a common display respectively. Registration unit (d) are connected, for the purpose of enabling a comparison of the wind pressure differences obtained with differently shaped impact surfaces of the same size projection area in one and the same time at one and the same wind speed. 1 sheet of drawings.