DE3304124A1 - Float flowmeter, in particular for gaseous media, having a damping device for the float - Google Patents

Abstract

In the case of a float flowmeter, in particular for gaseous media, which has a damping device for the float, which device is formed by a piston which is displaceable in a cylinder and is in drive connection with the float via connecting elements, it is envisaged that appropriate selection of the dimensions of piston and damping cylinder will achieve an operationally floating mounting of the piston in the cylinder which eliminates, at least to a great extent, direct contacts between piston and cylinder during operation.

Description

Description

The invention relates to variable area flowmeters, in particular for gaseous media, namely devices with a damping device for the movements of the float with shock-like flow. The invention primarily relates to such flowmeters, in which a damping device in a cylinder Slidable piston is provided, which is connected to the float via connecting elements is in drive connection, these connecting elements preferably only forces should be transmitted in the direction of the piston or cylinder axis of the damping cylinder.

In a known variable area flow meter of the named type Type is the piston of the damping device in the damping cylinder with qewissem Play out and sealed by piston rings against the cylinder wall. These Piston or sealing rings are usually made of plastic and have a shape that is spherical towards the outside, so that it is essentially linear Contact with the cylinder wall results.

Such a design favors high abrasion of the piston or D; caution rings and as a result has an insufficient after a short time Result in damping.

The invention is based on the object, primarily this Deficiencies in the damping devices of the flowmeters in use up to now of the kind mentioned avoid or at least to such an extent to reduce that they are practically no longer of importance.

According to the invention, this object is primarily in such devices Line to be solved by the fact that due to the appropriate choice of the dimensions of the piston and damping cylinder, a cylindrical gap and a bearing that floats during operation of the piston in the cylinder is achieved, the direct contacts between pistons and at least largely excludes or prevents cylinders during operation. Here the length of the piston should be as large as possible and preferably at least equal to that two to three times the piston diameter can be selected. The length can of course can also be chosen larger if the installation length of the device to be achieved in the the piston length is ultimately a determining factor, this allows. The extent of the damping is mainly determined by gap length and gap width and can be used for a device designed in this way may also be adjusted by that in the piston itself or in the bottom of the damping cylinder a passage for the Damping means is provided in the cylinder. This passage can be designed to be adjustable be.

The measures described above achieve that by Findings caused by wear and tear in the size of the damping practically do not apply. The damping piston fitted into the cylinder in the aforementioned sense has hardly any points of contact with the cylinder wall and only comes to her with extremely qerinqem Pressure to the system. Significant wear is therefore not to be feared. About that in addition, there are thermal problems such as occur with previous embodiments can be prevented with high security.

In the drawing is a variable area flow meter with a Damping device according to the invention as an example schematically with the for understanding essential parts shown. The device essentially consists of a measuring tube 11 with an upper 111 and a lower connecting flange 112. In the measuring tube 11 a float 12 is guided by means of guide stars 121 and 122. Of the conical float 12 is in a calibrated opening 131 in the measuring tube 11 inserted measuring ring 13 movable up and down and is according to the flow more or less raised.

The movements of the float 12 are controlled by a damping device influenced, which consists of a cylinder 14 carried by a retaining ring 141 and in which a piston 15 is slidably disposed.

The piston 15 is connected to a piston rod 16 at both ends Has ball joints, drivingly coupled to the float 12. The piston is fitted into the cylinder in such a way that the device is in operation due to the between the cylinder wall and the piston is a floating measuring medium Storage of the piston results in the damping by the dimensions of the gap (Width and length) is determined and to some extent by one in the piston crown or bore 151 made in the cylinder base can be influenced.

The length of the piston should be much larger than its diameter to get voted. In the illustrated embodiment, it is approximately two up to three times the piston diameter. The large contact surface with which the piston rests against the cylinder wall, leaves negligible contact pressures of the surfaces arise against each other, which also reduces possible abrasion to a minimum will.

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Claims (4)

Variable area flowmeter, especially for gaseous media, with a damping device for the float patent claims s float flow meter, 1 especially for gaseous media, with a damping device for the float, which has a piston which can be moved in a cylinder and which is connected to the float is in drive connection via connecting elements, which essentially only forces in the direction of the piston or. Transfer cylinder axis, characterized in that due to the appropriate choice of the dimensions of the piston and damping cylinder cylindrical gap and a floating bearing of the piston in the cylinder during operation is achieved, the direct contact between piston and cylinder during operation at least largely excludes. 2. variable area flowmeter according to claim 1, characterized in that that the length of the piston is at least equal to two to three times the piston diameter is chosen. 3. variable area flow meter according to claim 1 or 2, characterized characterized in that in the piston itself or in the bottom area of the damping cylinder a passage opening for the damping agent which determines the extent of damping is provided. 4. variable area flow meter according to claim 3, characterized in that that the passage opening is adjustable.