DE486568C - Liquid meter with cylindrical measuring vessel - Google Patents

Description

Liquid meter @ with cylindrical measuring vessel The invention relates to a liquid meter with a cylindrical measuring vessel, which by negative pressure filled and emptied by overpressure, especially for viscous liquids.

The invention aims to make the apparatus work safer and more accurately will. The invention consists in that when the known, the cylinder cross-section filling piston for pressing the liquid out of the measuring vessel of the piston an opening allowing the escape of gases in the measuring space has in connection with a float valve and a check valve in such an arrangement that both the passage of liquid and compressed air through the opening is blocked will.

An exemplary embodiment is shown in the drawing.

Fig. R shows schematically a vertical section of the plant.

Fig. 2 shows a section through the measuring container with the free, displaceable Pistons.

In the illustrated embodiment, it is for example about dumping oils for explosion engines, with certain difficulties to be overcome that are concerned with the proper function, in particular with regard to. of accuracy counter to the dispensed amount due to the viscosity of the liquid.

To operate the system, a suction and pressure pump a is used in a manner known per se, which is connected by lines h and c to a controller d, which in turn is connected to the measuring container e by a line f.

The measuring container e is to the one containing the liquid to be distributed Storage tank g connected by a line h. Furthermore, the measuring container e fitted with a drain line i at the bottom.

The control d consists of a cylinder dl, in which a Piston cylinder d, leads. The cylinder dl is mounted over a chamber d3, which is divided into two parts by a membrane d4. The piston valve d2 is connected to this Diaphragm d4 connected by a toggle rod d6.

With this arrangement there is a resilient switching device per se known type connected, which consists of an articulated arm attached to the housing d3 d6 attached to the axis connecting hinge d6 and membrane d4, and a spring d7 which presses against the same axis. This arrangement (Lever arm and spring) is only in one position in equilibrium, d. H. if the three points, namely the pivot point of the arm d ", the pivot point of the joint d "on the membrane d4 and the connection point of the spring d., on the housing, on and lie on the same straight line. Tfier and below this straight line there is only one possible location for the parts of the arrangement.

The cylinder d is connected to the free air through openings d1 "and dl" " tied together.

The measuring container e consists of a cylinder e1 in which a piston e. can move freely. This cylinder e1 is connected at the bottom to the chamber d3 by a line e3. Valves e4, e5 are provided at the ends of the cylinder e, in the pipe sockets e3 and e ". The pipe socket is above the valve e 4 with the pipe socket e" above the valve e, through a Z, v.eiggleitung e., in connection. The pipe socket is connected below the valve e ,, with the pipe socket e "below the valve e" by another branch line e $. When the controller d is connected to the cylinder c through the line f, the line es is partly used.

The mode of operation of this arrangement is as follows: Assume that, contrary to the position of the parts shown in the drawing, the piston d. at the upper end of the stroke, the piston e. is at the lower end of the stroke and the valve e5 is lifted from its seat, the pump a is activated so that a negative pressure is created through the intermediary of line b in cylinder dl, in line f and in cylinder e1 above piston e2 . The air pressure on the liquid in the container g drives it through the line h into the cylinder e1. This pushes up the piston e2. When it reaches the upper end position, it strikes against the rod of the valve e4, lifts it and causes the negative pressure in the lower part of the chamber d, under the diaphragm d4 to take effect. As a result, the diaphragm d4 sinks under the influence of atmospheric pressure and takes the piston valve d2 with it, whereby the line b comes into communication with the atmosphere and the line c is connected to the line f through the cylinder dl. Now the pressure of the air emerging from the pump acts on the calves e2 from above, so that the calves come down and the liquid - through the emptying line i. pushes out of the cylinder e1.

When the piston e., Comes to the lower end of the stroke, it opens the valve e5 and thereby sets the line f under the mediation of the line it with the pipe socket e ", the branch line e;, the pipe socket e3 and the lower part of the chamber d3 in connection with the effect that the overpressure acts on the membrane d4 from below and pushes them up.

The switching device d ", d" deflects upwards, and the spool valve d. Is guided to the upper end of the stroke through the joint d6, whereby the line c comes into contact with the atmosphere and the line b with the line f. Now repeat the processes as they have just been described, as long as the suction and pressure pump a is operated.

So that the handling of the pump is not reversed to the normal direction of rotation can take place, lines b and c are expediently provided with a non-return valve, or the pump is set up so that its course is irreversible: in particular for the application in question for the control of a viscous liquid the piston e2 is expediently designed as shown in FIG. It consists of in this case from a cylindrical body e2, (made of such a material that the cylinder as completely as possible to the more or less uneven inner surface of the cylinder e ,. can nestle), the edges of which are appropriately bevelled. At the extent of this Cylinder e2, a recess e22 is provided. The cylinder is with a middle Transverse wall e23 provided, in order to achieve sufficient rigidity between a body e24 and a circular disc e2, by means of one on a projection e2., of the body e24 screwed nut e2 "is clamped.

To allow evacuation of air or gases, their presence may be due to chance or intent, the projection e2 is made hollow and pierced above so that the two end faces of the piston through each other this hole are in communication. After the air or gases have been exhausted, which were contained in the liquid, the connection through the bore is thereby interrupted that a float e2 $ with cone valve, which is below by a suitable Organs "is secured against total falling, is raised. When emptying of the cylinder, a ball e3 "blocks the hole in the projection e2;

Claims (1)

PATENT CLAIM: Liquid meter with a cylindrical measuring vessel, which is filled by negative pressure and emptied by positive pressure, especially for viscous liquids, characterized in that when the known, the cylinder cross-section filling piston to press out the liquid the: vial vessel the piston allows gases to escape in the measuring chamber Opening is in connection with a float valve and a non-return valve in such an arrangement that both liquid and compressed air can pass through blocked by the opening.