FI70324C - FOERBAETTRINGAR VID WOLTMANN-MAETARE - Google Patents

Description

1 70324

Improvements to Woltmann meters

The present invention relates to Woltmann-type fluid flow measuring devices with an axial turbine, in which the amount of fluid flowing in a pipe is measured by means of a turbine placed axially in this pipe, which produces a speed corresponding to the flow to be measured.

In devices of this type with a mechanical output, an endless screw is arranged on the downstream side of the turbine shaft to detect the turbine speed, which rotates a gear mounted on a second axis perpendicular to the direction of the tube while the second axis transmits the desired information from the measuring mechanism.

In addition, these devices comprise a control flange which is positioned upstream of the turbine, rotating about an axis perpendicular to the direction of the tube, and whose angular position is set constant at the factory during the calibration step of the device.

Said two elements, on the one hand the output axis of the movement and on the other hand the control flange, form flow resistances for the fluid and thus a harmful loss load to the measuring device, respectively.

The invention relates to a flow measuring device of the said type, in which the loss load due to the above-mentioned elements is largely reduced due to the structural change of the device.

The measuring device according to the invention comprises in a pipe element: - a turbine mounted on a coaxial axis of rotation coaxial with said pipe element, - a motion output shaft connected to said shaft for indicating the turbine speed, 35 - a pair of rotating shafts on the upstream side , and is characterized in that said axis of movement and said axis of the control flange are coaxial, one axis running inside the other.

5 This structure has the advantage that only a single obstacle is necessary in the fluid path, so that the load losses are reduced in proportion to the corresponding losses of the prior art devices. Another advantage is the reduction in the number of parts of the meter 10.

The invention is applicable to fluid flow measuring devices in general and to large diameter water meters in particular.

The invention will be better understood from the following description and with reference to the accompanying drawing, which is given by way of non-limiting example only of an embodiment of the device according to the invention.

In this drawing, the figure shows a partial sectional view of the device in a plane parallel to the axis and passing through the common axis of the control shaft of the control flange and the movement of the turbine.

The tubular element 10 shows a turbine 11 coaxially mounted for rotation by means of radially arranged support ribs 16 on half-axes between two hollow form plates 14, 15 connected to the element 10. The fluid flowing in the element 10 in the direction of the arrow.

An adjustable flange 17 is provided on the upstream side of the turbine 11 to calibrate the device about an axis approximately perpendicular to the axis 30 of the tube. The adjusting flange 17 is attached to a tubular shaft 18 whose lower end pivots in the opening of the upstream mold plate 14 10 in the corresponding recesses 18A. The upper end of the shaft 18 located in the chamber 19 formed over the shaft 18 between the tubular element 10 and the closure body 20 has a toothed part 21, 3 70324 which engages a gear 22. The gear 22 is mounted on a shaft 23 parallel to the shaft 18 with a notch 24 at its upper end. 17 orientation with a screwdriver. The nut 25 5 ensures that the shaft 23 is locked in a fixed position and thus keeps the adjusting flange in a certain angular position during the calibration of the device. The auxiliary part 26 attached to the tubular element 10 holds the shaft 18 in place against the pressure of the fluid and also presses the annular seal 27, which acts as a vibration verifier. The device is closed at its top by a cover 29 (partially shown) which is sealed after the device has been calibrated, preventing any access to the shaft 23.

The rotational movement of the turbine 11 is transmitted by a pair of tangential screws 31 and a gear 32 placed inside the shape plate 14 located upstream of the output shaft 15. According to the invention, the output shaft 30 passes through the tubular shaft 18 of the adjusting flange 17 and transmits its movement to a reduction gear 33 partially shown and possibly magnetically sealed to the device adder via a shaft 33 at the lower end of a support bearing 34 mounted inside the form plate 14 and at its upper end in a bearing 28 arranged in a tubular shaft 18.

Claims (3)

70324 A device for measuring the flow rate of a fluid, which device is of the Woltmann type, i.e. provided with an axial turbine, and which in the pipeline member (10) comprises a turbine (11) rotatably mounted on a shaft (12, 13) mounted on said coaxial member (10) , a motion take-off shaft (30) coupled to the shaft (12, 13) of the turbine (11) for indicating the speed of the turbine (11), and an adjusting flange (17) rotatable about the shaft (18) and located on the upstream side of the turbine (11) for calibrating the device, characterized in that the shaft (30) and the control flange (17) are coaxial, the second shaft running inside the second shaft. Device according to Claim 1, characterized in that the shaft (30) which extracts the movement extends inside the shaft (18) of the adjusting flange (17). Device according to Claim 2, characterized in that the output shaft (30) pivots in a lower-end weather support bearing (34) mounted on a form plate (14) located upstream of the turbine (11) and at its upper end in the bearing ( 28) mounted on the shaft (18) of the adjusting flange (17).