CZ12181U1 - Device for measuring liquid flow - Google Patents

Description

Technical field

The technical solution relates to a device for measuring the flow of liquids with a free surface.

Background Art

The measurement of free-flow liquid flow is currently carried out by means of measuring trays (Parshall, SANIIRI, Montana) made of various materials, namely wood, concrete, fiberglass steel or PVC.

The disadvantage of concrete gutters is the high labor intensity associated with the production of formwork on site and at the same time the risk of non-compliance with the required dimensional tolerances is increased. The disadvantage of wooden gutters is their short life and dimensional instability. Steel gutters must be made of stainless steel with respect to corrosion, which significantly increases production costs. The fiberglass and PVC gutters must be made on the hoof and the return on investment implies a great deal of repetition.

The essence of the technical solution

These drawbacks are eliminated by the free-flow fluid flow measuring device consisting of an inflow portion tapering in the flow direction to the neck and the outflow portion extending in the flow direction according to the invention, the inlet, neck and outlet port being They are made of polyethylene or polyethylene with fillers or polypropylene with or without fillers. The walls of the inlet part and the throat as well as the throat walls and the outflow part are joined together by welds only from the outside and from the inside the walls of all these parts are connected to a meeting without welds.

The device according to this technical solution serves to measure the flow of liquids in channels, troughs or troughs. Its use is very wide. This wide applicability is mainly due to these advantages, very low energy loss, relative insensitivity to the distribution of inflow velocity in the channel, minimum maintenance requirements, resistance to erosive influences of the environment, time stability of the material and the shape of the measuring channel, the possibility of prefabricability while maintaining low costs.

List of drawings in the drawing

The technical solution will be explained in more detail by means of the attached figure, in which a flow measuring device according to the present invention is schematically shown.

An example of a technical solution

The free-flow fluid flow measuring device 4 shown in the attached figure is formed by an inflow portion J tapering in the direction of flow of the fluid. A neck 2 connected to the narrower end of the expanding outlet portion 3 is attached to its narrower end. The individual portions are made of polyethylene or polyethylene with fillers or polypropylene with or without fillers. The walls of the inlet part 1 and the neck 2 as well as the walls of the neck 2 and the outflow part 3 are welded together by a weld only from the outside of the trough, the inner joints of the walls of all these parts inside the trough being connected only to a meeting without welds.

Water flowing into the device 4 is forced by the narrowing of the trough to move from river movement through critical depth to the movement of the torrent. Thanks to this transition from one mode to another, the flow rate of water can be determined according to the level before the neck 2.

- 1 CZ 12181 Ul

Since the inlet part, the neck 2 and the outflow part 3 are made of polyethylene or polyethylene with fillers or polypropylene or polypropylene with fillers, it is possible to measure the flow rates even with highly aggressive liquids such as acids and bases. liquids with a high content of suspended solids that do not stick to the surface of the device due to the material used and do not impair measurement. The material is easy to process, cost-effective. The device according to the invention can be manufactured as a prefabricated part and its on-site installation is simplified.

The device can be installed in drainage channels, in outlets from tanks, on streams, in sewage sewers, wastewater treatment plants, etc.

Claims (1)

An apparatus for measuring free flow of liquids comprising an inflow portion (1) tapering in the direction of flow of a liquid, a throat (2) and an outlet portion (3) extending in the flow direction of a liquid, characterized in that the inflow portion (1), the orifice (2) and the spout (3) are made of polyethylene or of polyethylene with fillers or of polypropylene or of polypropylene with fillers, the walls of the inlet part (1) and the orifice (2) as well as the walls of the orifice (2) and the outflow portions (3) are connected only to the welds from the outside of the device and from the inside of the trough, the walls of all these portions are joined to a meeting without welds.